Dr. MASAHIKO ABE

LIST OF PAPERS

*: Chapter, Reviw and/or Proceeding

�T. Solution Properties and Syntheses of Surfactants.

�T-A Hydrocarbon Surfactants ( On Syntheses)

1. Syntheses of Amphiphiles Containing Two Azobenzene Units in a Molecule.

N. YOSHINO, A. NAGASAKI, Y. KONDO, M. ABE, J. Jpn. Oil Chem. Soc.,

44 (12), 1075-1085 (1995). (in Japanese)

2.Synthesis of Fluorinated Hybrid Surfactants Having two Benzene Rings and two Hydrophilic

Groups.

Y.KONDO, R.INOMATA, H.SAKAI, M.ABE , N.YOSHINO, Material Technology,19 (5), 203-208

(2001). (in Japanese)

3.Syntheses of Polyglycerol Fattyacid Esters and Their Lipophobicity.

S.HASHIMOTO, Y.SAITO, H.SAKAI, M.ABE, Material Technology, 20 (5), 255-262 (2002).

(in Japanese)

4.Syntheses of Highly Purified Triglycerol Mono-Fatty Acid Esters and their Intrfacial Acticity.

S.HASHIMOTO, Y.SAITO, H.SAKAI, M.ABE, Material Technology, 21 (1), 13-23 (2003).

(in Japanese)

Ferrocenylalkyl Surfactants

5. Synthesis of Novel Anionic Surfactants Possessing Two Ferrocenylalkyl Chains.

N.YOSINO, H.SHOJI, Y.KONDO, S.SAKAI, M.ABE, J. Jpn. Oil Chem. Soc., 45 (6), 569-576

(1996). (in Japanese)

6.Syntheses of Cationic Surfactants having Two Ferrocenylalkyl Chains.

N. YOSHINO, H. SHOJI, Y. KONDO, Y. KAKIZAWA, H. SAKAI, M. ABE, J. Jpn. Oil Chem. Soc.,

45 (8), 769-775 (1996).

7. Synthesis of Ferrocene Type Cationic Surfactants with Two Hydrophilic Groups.

N. YOSHINO, H. SHOJI, Y. KONDO, H. SAKAI, M. ABE, Material Technology,

14 (10), 293-299 (1996). (in Japanese)

�T-B Fluorocarbon Surfactants (On Syntheses)

8. Syntheses and Properties of Sodium Fluoroalkylbenzenesulfonates.

K. OGINO, M. ABE, K. MORIKAWA, M. NITANI, H. SAWADA, T. MATSUMOTO,

J. Jpn. Soc. Colour Material, 65 (4), 205-221 (1992). (in Japanese)

9. Reduction of Surface Tension of Pure m-xylene by Novel Fluorinated Surfactants.

M. ABE, K. MORIKAWA, K. OGINO, H. SAWADA, T. MATSUMOTO, M. NAKAYAMA,

Langmuir, 8, 763-764 (1992).

10. Synthesis of Azobenzene Derivatives Having Fluoroalkyl Chain and Their

Monomolecular Film Formation at the Air/Water Interface-.

N. YOSHINO, M. KITAMURA, T. SETO, Y. SHIBATA, M. ABE, K. OGINO, Bull. Chem. Soc. Jpn.,

65 (8), 2141-2144 (1992).

11. Solution Properties of Double-tailed Fluorinated Surfactants -On Comparision

between Trifluoromethyl and Hydrogen Groups at Each Tail End-.

M. ABE, A. ITOH, K. OGINO, N. YOSHINO, Jpn. Res. Inst. Material Tech.,12 (4), 81-86 (1994).

(in Japanese)

12. Surfactants having polyfluoroalkyl chains. II. -Synthesis of anionic surfactants

having two polyfluoroalkyl chains including trifluoromethyl group at each tail end and

their flocculation-redispersion ability for dispersed magnetite particles in water.

Y. YOSHINO, M. MORITA, A. ITO, M. ABE, J. Fluorine Chem., 70, 187-191 (1995).

13.Syntheses of Amphiphiles Containing Azobenzene Unit with Fluorocarbon Chain.

N. YOSHINO, S. ASANO, Y. KONDO, M. ABE, J. Jpn. Oil Chem.Soc., 45 (2), 171-179 (1996).

(in Japanese)

*14.Syntheses and Solution Properties of Novel Surfactants Containing Fluorocarbon Chains.

M. ABE, N. YOSHINO, J. Jpn. Oil Chem. Soc., 45 (10), 991-999 (1996).(in Japanese)

15.Synthesis and Applications of Surfactants Containing Fluorine.

Masahiko ABE , Current Opinion in Colloid & Interface Science, 4 (5),354-356 (1999).

16.Effects of Fluoroalkyl Chain Length and Added Moles of Oxyethylene on Aggregate Formation of

Branched-Tail Fluorinated Anionic Surfactants.

Masanobu SAGISAKA, Atsushi ITO, Yokishige KONDO, Norio YOSHINO,

Kyung OK KWON, Hideki SAKAI , Masahiko ABE, Colloids ans Surfaces A:Physicco-chemical and

Engineering Aspects, 183-185, 749-755 (2001).

�T-C 　 Fluorinated Silicone Oligomers.

17. Synthesis and Antifoaming effect of Novel Fluorosilicones by the Reaction of

Diphenylsiloxane with Bis (fluoroalkanoyl) Peroxides.

M. ABE, K. MATSUDA, K. MORIKAWA, K. OGINO, H. SAWADA, T. MATUMOTO,

J. Jpn. Colour Material, 62 (12), 750-756 (1992). (in Japanese)

18. Reduction of the Friction Coefficient of Liquid Paraffin by Novel Fluorosilicones.

M. ABE, K. MATSUDA, K. OGINO, H. SAWADA, K. NISHIYAMA, Langmuir, 9 (11), 2755-2757

(1993).

19. Antifoaming Effects in a Non-aqueous Solvent by Novel Fluorosilicone Oligomers.

K. MATSUDA, M. ABE, K. OGINO, N. YOSHINO, H. SAWADA, J. Jpn. Colour Material,

67 (2), 88-91 (1994).

20. Synthesis and Foam Dissipation Effect of Novel Fluorosilicone Oligomers.

M. ABE, K. MATSUDA, K. OGINO, N. YOSHINO, H. SAWADA, J. Jpn. Colour Material,

67 (3), 138-144 (1994). (in Japanese)

21. Synthesis of Novel Surface Active Fluoroalkylated Acrylic Acid Co-oligomers

Containing Dimethylsilicone Segments.

H. SAWADA, A. OHASHI, M. OUE, M. ABE, M. MITANI, H. NAKAJIMA, M. NISHIDA, Y. MORIYA,

J. Jpn. OIL CHEM. SOC., 43 (12), 1097-1101 (1994).

22.Synthesis and surfactant properties of fluorinated acrylic acid co-oligomers containing

dimethylsilicone segments as potential inhibitors of HIV-1.

H. SAWADA, A. OHASHI, M. OUE, M. BABA, M. ABE, M. MITANI, H. NAKAJIMA,

J. Fluorine Chem., 75, 121-129 (1995).

23. Lubrication Characteristics of Novel Fluorosilicone Oligomers.

M. MATSUDA, J. NAKAGAWA, K. NISHIYAMA, Y. NOMIYAMA, K. MATSUKAWA, H. SAWADA,

H. SAKAI, M. ABE, J. Jpn. Colour Material, 69 (6), 361-369 (1996). (in Japanese)

24. Surface Chemical and Solution Properties of Fluorinated Silicon Oligomers with

Carboxylic Acid Groups.

J. NAKAGAWA, K. KAMOGAWA, H. SAKAI, T. KAWASE, H. SAWADA, J. MANOSROI,

A. MANOSROI, M. ABE, Langmuir, 14 (8), 2055-2060 (1998).

25. Molecular Assemblies of Fluorinated Silicon Oligomers with Carboxylic Acid Groups:

Effects of Chemical Oligomer Structure on Assembly Shape.

J. NAKAGAWA, K. KAMOGAWA, N. MOMOZAWA, H. SAKAI, T. KAWASE, H. SAWADA,

Y. SANO, M. ABE, Langmuir, 14 (8), 2061-2067 (1998).

�T-D　 Hydrocarbon/Fluorocarbon Hybrid Surfactants

26.Syntheses of Hybrid Anionic Surfactants Containing Fluorocarbon and Hydrocarbon Chain.

N. YOSHINO, K. HAMANO, Y. KONDO, A. ITO, M. ABE, Langmuir, 11 (2), 466-469 (1995).

*27. Syntheses of Hybrid Surfactants.

N. YOSHINO, M. ABE, Chemistry and Technology, 48 (4), 524-526 (1995). (in Japanese)

28.Anomalous Behavior of Fluorocarbon-Hydrocarbon Hybrid Surfactant in its Aqueous

Solution: Surface Tension and Micropolarity.

A. ITO, K. KAMOGAWA, H. SAKAI, K. HAMANO, Y. KONDO, N. YOSHUINO, M. ABE,

J. Jpn. Oil Chem. Soc., 45 (5), 479-482 (1996).

29. Micellar Solution Properties of Fluorocarbon-Hydrocarbon Hybrid Surfactants.

A. ITO, H. SAKAI, Y. KONDO, N. YOSHINO, M. ABE, Langmuir, 12 (24), 5768-5772 (1996).

*30. M. ABE, Hybrid Surfactants in Basis of Modern Colloid and Interface, Maruzen.,

pp.220-224 (1997). (in Japanese)

31. Anomalous Viscoelasticity of Concentrated Solutions with a Fluorinated Hybrid Surfactant.

M. ABE, K. TOBITA, H. SAKAI, Y. KONDO, N. YOSHINO, Y. KASAHARA, H. MATSUZAWA,

M. IWAHASHI, N. MOMOZAWA, K. NISHIYAMA, Langmuir, 13 (11), 2932-2934 (1997).

32. Micelle Aggregating Condition of Fluorocarbon-Hydrocarbon Hybrid Surfactants in

Aqueous Solution.

A. ITO, K. KAMOGAWA, H. SAKAI, K. HAMANO, Y. KONDO, N. YOSHINO, M. ABE,

Langmuir, 13 (11), 2935-2942 (1997).

33.Thermoresponsive Viscoelasticity of Sodium 1-Oxo-1-[4-(tridecafluorohexyl)phenyl]-

2-hexanesulfonate Aqueous Solutions.

K. TOBITA, H. SAKAI, Y. KONDO, N. YOSHINO, M. IWAHASHI, N. MOMOZAWA, M. ABE,

Langmuir, 13 (17), 5054-5055 (1997).

34. Temperature-Induced Critical Phenomenon of Hybrid Surfactant as Revealed by

Viscosity Measurements.

K. TOBITA, H. SAKAI, Y. KONDO, N. YOSHINO, K. KAMOGAWA, N. MOMOZAWA, M. ABE,

Langmuir, 14 (17), 4753-4757 (1998).

*35. Fluorocarbon/Hydrocarbon Hybrid Surfactant in Annual Surfactants Review.

M.ABE, N.YOSHINO, Vo.l 1, Edited by D. R. Karsa, Sheffield, in press. (1998).

36.Effect of Additives on the Viscosity of Hybrid Surfactant Aqueous Solutions.

K.TOBITA, H.SAKAI, Y.KONDO, N.YOSHINO, K.KAMOGAWA, N.MOMOZAWA, M. ABE,

Material Technology,16 (5), 202-208 (1998). (in Japanese)

37.Aqueous Surfactant Solutions Indicating Rubber-like elasticity.

M.ABE, K.TOBITA, H.SAKAI, K.KAMOGAWA, N.MOMOZAWA, Hyomen, 37 (1), 47-58 (1999).

(in Japanese)

38.Synthesis and Solution Properties of Hydrocarbon Surfactants Structurally Analogous to Hybrid

Surfactants.

Y.KONDO, M.HAMASAKI, K.TOBITA, H.SAKAI, M.ABE, N.YOSHINO, Journal of Japan Oil Chemists

Society, 48 (7), 707-711 (1999). (in Japanese)

39.Thermodynamic Study on Surface Adsorption and Micelle Formation of a Hybrid Anionic

Surfactant in Water by Surface Tension (Drop Volume )Measurements.

M.HISATOME, M.ABE, N.YOSHINO, S.LEE, S.NAGADOME, G.SUGIHARA,

Langmuir, 16 (4), 1515-1521 (2000).

40.Thermoresponsive Viscoelasticity of Concentrated Solutions with Fluorinated Hybrid Surfactant.

Masahiko ABE, Kazuhiko TOBITA, Hideki SAKAI, Keiji KAMOGAWA, Nobuyuki MOMOZAWA,

Yukishige KONDO, Norio YOAHINO, Colloids and SurSurfaces A:Physicochemical and Enginering

Aspects, 167 (1-2), 47-60 (2000).

41.Dispersion Characteristics of Alumina Particles Absorbed by Fluorinated Hybrid Surfactant.

A.SAEKI, K.KAMOGAWA, J.ITHO,Y.KONDO,N.YOSHINO, H.SAKAI, M.ABE,

Material Technology, 18 (5), 158-163 (2000). (in Japanese)

42.Fluorocarbon Hybrid Surfactants Characterization of Admicelles and Its Solubilization.

Masahiko ABE, Akihiro SAKAI, Keiji KAMOGAWA, Hideki SAKAI, Yuksige KONDO,

Norio YOSHINO, Hirotaka UCHIYAMA, Jeffery H.HARWELL

Industrial and Engineering Chemistry Research, 39 (8), 2697-2703 (2000).

43.Solubilization of Oily Compounds into Fluorocarbon-Hydrocarbon Hybrid Surfactant Admicelles

Formed on Alumina Surfacce.

Akihiro SAEKI, Hideki SAKAI, Keiji KAMOGAWA, Yukishige KONDO, Norio YOSHINO,

Hirotaka UCHIYAMA, Jeffrey H. HAEWELL, Masahiko ABE, Langmuir, 16 (26), 9991-9995 (2000).

44.IR Spectroscopic Study on Changes in Aggregated State of Fluorinated Hybrid Surfactant.

Atsushi ITO, Hiroyuki YAMAMOTO, Hideki SAKAI, Keiji KAMOGAWA, Masahiko ABE,

Journal of The Japan Society of Colour Material, 74,68-71 (2001).

45.First Anionic Micelle with Unusually Long Lifetime: Self-Assembly of Fluorocarbon-Hydrocarbon

Surfactant.

Yukishige KONDO, Haruhiko MIYAZAWA, Hideki SAKAI, Masahiko ABE, Norio YOSHINO,

Jourmal of American Chemical Society, 124 (23), 6516-6517 (2002).

46.Microstructures in the aqueous solutions of hybrid anionic fluorocarbon/hydrocarbon surfactant.

Dganit DANINO, DephneWEIHS, Raoul ZANA, Greger ORADD, Goran LINDBLOM, Masahiko ABE,

Yeshayahu TALMON, Journal of Colloid and Interface Science, 259, 382-390 (2003).

I-E Monolayer (consisting LB Membrane).

47. Monolayer Properties of Sodium 2-Sulfonatofatty Acid Higher Alkyl Esters at the

Air/Water Interface.

M. ABE, Y. OKUMA, K. O. KWON, K. OGINO, T. OKANO, J. TANABE, M. FUKUDA,

J. Jpn. Oil Chem. Soc., 69 (6), 361-369 (1996). (in Japanese)

48. First in situ Monolayer Conductivity Measurements on Water:

Bis(ethylenedioxy)tetrathiafulvalene and 2-Decyl-7,7,8,8-tetracyanoquinodimethane Systems.

H. ISOTALO, G. YUNOME, M. ABE, S. HORIUCHI, H. YAMOCHI, G. SAITO, H. TACHIBANA,

T. NAKAMURA, M. MATSUMOTO, J. Chem. Soc., Chem. Commun., 1994, 573-574 (1994).

49. Langmuir-Blodgett Film of Amphiphilic C60 Carboxylic Acid.

M. MATSUMOTO, H. TACHIBANA, R. AZUMI, M. TANAKA, T. NAKAMURA, G. YUNOME, M. ABE,

S. YAMAGO, E. NAKAMURA, Langmuir, 11 (2), 660-665 (1995).

50.Structures and photoisomerization of the polyion complex Langmuir-Blodgett films of

an amphiphile bearing two azobenzene units.

H. TACHIBANA, R. AZUMI, M. TANAKA, M. MATSUMOTO, S. SAKO, H. SAKAI, M. ABE,

Y. KONDO, N. YOSHINO, Thin Solid Films, 284-285, 73-75 (1996).

51.Fabrication of Hybrid Layered Films of MoS2 and an Amphiphilic Ammonium Cation

Using the Langmuir-Blodgett Technique.

Y. TAGUCHI, R. KIMURA, R. AZUMI, H. TACHIBANA, N. KOSHIZAKI, M. SHIMOMURA,

N. MOMOZAWA, H. SAKAI, M. ABE, M. MATSUMOTO, Langmuir, 14 (22), 6550-6555 (1998).

52.Light-Induced J-agregation in mixd Langmuir-Blodgett Films of Selenium Containing Cyanine

and Azobenzene.

Hiroaki TACHIBANA, Fumiyasu SATO, Samuel TERRETTAZ, Reiko AZUMI, Tohru NAKAMURA,

Hideki SAKAI, Masahiko ABE, Mutsuyoshi MATSUMOTO,

Proceedings of 8th International Molecular Membrane Symposium, 327-329,813-815 (1998).

53.Salt Formation of the Langmuir-Blodgett Films of Arachidic Acid Mixed with Amphiphilic

Ammonium lons and an Amphiphilic Amine.

Hisaaki MUTUZAKI, Reiko AZUMI, Hiroaki TACHIBANA, Hideki SAKAI, Masahiko ABE,

Mutsuyoshi MATSUMOTO, Chemistry Letters, 505-506 (1999).

54.Effect of Position of Butadiyne Moiety in Amphiphilic Diacetylenes on the Polymerization in the

Langmuir-Blodgett Fims.

Hiroaki TACHIBANA, Yasushi YAMANAKA, Hideki SAKAI, Masahiko ABE, Mutsuyoshi

MATSUMOTO, Macromolecules, 32 (25), 8306-8309 (1999). (in Japanese)

55.Nano Structure of Monolayers of Heavy Chalcogenophenes Delivertives on Au(111).

Nakamura, Tohru; Kondoh, Hiroshi; Matsui, Fumihiko; Kimura, Ryota; Sakai, Hideki;

Abe, Masahiko; Ohta, Toshiaki; Matsumoto, Mutsuyoshi, Shingaku-Gihou, 63, 67-70 (2000).

56.In Situ AFM Study on the Morphological Change of the Langmuir-Blodgett Film of Cadmium 10,

12-Pentacosadiynoate during Poly, erization.

Hiroaki TACHIBANA, Yasushi YAMANAKA, Hideki SAKAI, Msahiko ABE, Mutsuyoshi MATSUMOTO,

Langmuir, 16 (6), 2975-2977 (1999).

57.Highly Electrical Conductivity of Hybrid Langmuir-Blodgett Films of Transition

MetalDichalcogenide and Amphiphilic Compoinds.

Hiroaki TACHIBANA, Yasushi YAMANAKA, Hideki SAKAI, Masahiko ABE, Mutsuyoshi MATSUMOTO,

Mol.Cryst.And Liq. Cryst Liq Cryst, 341, 137-142 (2000).

58.Highly Conductive lnorganic-Organic Hybrid Langmuir-Blodgett Films Based on MoS2.

Hiroaki TACHIBANA, Yasushi YAMANAKA, Hideki SAKAI, Masahiko ABE, Mutsuyoshi MATSUMOTO,

Chemistry of Materials, 12 (3), 854-856 (2000).

59.J-aggregate Formatuon of Amphiphilic Merocyanine in Langmuir-Blodgett Films.

Hiroaki TACHIBANA, Yasushi YAMANAKA, Hideki SAKAI, MasahikoABE, Mutsuyoshi MATSUMOTO,

Journal of Luminescence, 87-89,800-802 (2000).

60.Self-Assembled Monolayers of Heavy　Chalcogenophenes and Dialky Heavy　Chalcogenides on

Au (111).

Tohru NAKAMURA, Ryota KIMURA, Fumihiko MATSUI, Hiroshi KONDOH, Toshiaki OHTA,

Hideki SAKAi, Masahiko ABE, Mutsuyoshi MATSUMOTO, Langmuir, 16 (9), 4213-4216 (2000).

61.Highly Conductive lnorganic-Organic Hybrid Langmuir-Blodgett Films Based on MoS2.

Hiroaki TACHIBANA, Yasushi YAMANAKA, Hideki SAKAI, Maasahiko ABE, Mutsuyoshi,

MATSUMOTO, Chemistory of Materials, 12 (3), 854-856 (2000).

62.J-Aggregate Formation and Morphological Change on UV Irradiation of the Langmuir-Blodgett

Films Spiropyran.

Hiroaki TACHIBANA, Yasushi YAMANAKA, Hideki SAKAI, Masahiko ABE, Mutsuyoshi

MATSUMOTO,Mol.Cryst.Liq.Cryst, 345, 155-160 (2000).

63.Effect of Heat Treatment on Morphology and Polymerization of Langmuir-Blodgett Films of

Amphiphilic Diacetylene Complixed with Polyallyamine.

Hideki TACHIBANA, Yasushi YAMANAKA, Hideki SAKAI, Masahiko ABE, Mutsuyoshi MATSUMOTO,

Mol.Cryst.Liq.Cryst, 349, 211-214 (2000).

64.J-Aggregate Formation in Single-Layer Amphiphilic Spiropyran langmuir-Blodgett Films.

Hiroaki TACHIBANA, Yasushi YAMANAKA, Hideki SAKAI, Masahiko ABE, Mutuyoshi MATSUMOTO,

Chemistry Letters, 1182-1183 (2001).

65.Structural and Morphological Changes and Polymerization Behaviors of Diacetylene Langmuir-

Blodgett Films on Adding Water-Soluble Polyallylamine in the Subphase.

Hiroaki TACHIBANA, Yashushi YAMANAKA, Hideki SAKAI, Masahiko ABE, Mutsuo MATSUMOTO,

Polymer, 42,1995-2000 (2001).

66.Morphology and Polymerization Behavior of Amphiphilic Diacetylene Complexed with

Polyallylamine in Langmuir‐Blodgett Films.

Hiroaki TACHIBANA, Yasushi YAMANAKA, Hideki SAKAI, Masahiko ABE, Mutsuyoshi MATSUMOTO,

Thin Solid Surfaces, 382, 257-262 (2001).

67.Self-Organization of Amphipilic Diacetylenes in Langmuir-Blodgett Films.

Hiroaki TACHIBANA, Yasushi YAMANAKA, Hideki SAKA, Masahiko ABE, Mutsuyoshi MATSUMOTO,

Proceedings of the International Conference on Colloid and Surface Science,

Tokyo,Japan,November5-8,2000, 461-404 (2001).

68.Structure of the Langmuir-Blodgett Films of Arachidic Acid Mixed with Amphiphilic Ammonium

lons and an Amphile Amine.

Reiko AZUMI, Hisaaki MUTSZAKI, Hiroaki TACHIBANA, Hideki SAKAI, Masahiko ABE,

Mutsuyoshi MATSUMOTO, Mol.Cryst.And Liq.Cryst, 370, 261- 264 (2001).

69.Structural Changes of Polyion Complex Langmuir-Blodgett Films Acompanies by Polymerization

of Amphiphilic Diacetylene.

Hiroaki TACHIBANA, Yasushi YAMANAKA, Hideki SAKAI, Masahiko ABE, Mutsuyoshi MATSUMOTO,

Colloids and Surfaces A:Physico-chemical and Engineering Aspects, 198-200, 83-88 (2002).

70.Light-Induced J-Aggregation of Merocyanine in Langmuir-Blodgett Films.

Mutsuyoshi MATUMOTO, Takahiro NAKAZAWA, Reiko AZUMI, Hiroaki TACHIBANA,

Yasushi YAMANAKA, Hideki SAKAI, Masahiko ABE, Journal of Physical Chemistry B,

106, 11487-11491 (2002).

71.Nano-dot formation using self-assembled 3-mercaptopropionic method on Au (111).

Tohru NAKAMURA, Ryota KIMURA, Hideki SAKAI, Masahiko ABE, Hiroshi KONDOH, Toshiaki OHTA,

Mutsuyoshi MATSUMOTO, Applied Sruface Science202, 241-251 (2002).

I-F Others.

*72. Solution Properties of Surfactants. -Liquid/Liquid Dispersion Systems-.

M. ABE, K. OGINO, J. Jpn. Colour Material, 60 (2), 100-110 (1987). (in Japanese)

73. Microanalysis of Alkyl Poly(oxyethylene) Ethers by a HPLC.

M. ABE, H. NISHINO, K. INOUE, K. WATANABE, K. OGINO, J. Jpn. Oil Chem. Soc.,

37 (9), 704-708 (1988) . ( in Japanese)

74. Simultaneous Determination of Anionic Surfactants and Inorganic Electrolytes by an

Isotacophoretic Method.

M. ABE, T. YAMAGUCHI, M. NAKAMAE, K. WATANABE, K OGINO, J. Jpn. Oil Chem. Soc.,

37 (11), 1000-1005 (1988). (in Japanese)

75. Reduction of Surface Tension of Novel Polymer Surfactants.

K. OGINO, Y. ONOE, M. ABE, H. ONO, K. BESSHO, Langmuir, 6 (7), 1330 (1990).

*76. Colloidal Assemblies.

M. Abe, J. Jpn. Oil Chem. Soc., 41 (9), 846-854 (1992). (in Japanese)

*77. Control of Liquid/Liquid Interfaces.

M. ABE, in Function and Application of Emulisification and Dispersion Technique.

Science Forum, pp.12-21 (1995). (in Japanese)

78. Raman spectroscopic study on aggregation states of N-acyl-N-methyltaurinate

aqueous solutions with different counter ions.

Miyazawa, Kiyoshi; Takahashi, Toshinobu; Kohashi, Hitoshi; Ishida, Misaki; Yoshino,

Satoshi; Kamogawa, Keiji; Sakai, Hideki; Abe, Masahiko. Zairyo Gijutsu, (1997), 15 (10), 348-353.

(1997). (in Japanese)

79.Interfacial science of oleic acid.

Y.SAKAI, H.IMAMURA, M.ABE, Reviews and Topics on Surface Science & Technology Avant-,garde,

39 (4), 137-145 (2001). (in Japanese)

80.Effects of Tween-type Surfactant on Solution Properties of Bovine Serum Albumin.

T.YAMAZAKI, M.ISIDA, A.YAMAGUCHI, H.SAKAI, M.ABE,

Material Technology, 19 (5), 209-214 (2001). (in Japanese)

81.Syntheses of Amphiphilic Block Coploymers by Living Cationic Polymerization of Vinyl Eths and

Their Selective Solvent -Induced Physical Gelation.

Shinji SUGIHARA, Shin-ichiro MATUZONO, Hideki SAKAI, Masahiko ABE, Sadahito AOSHIMA,

Journal of Polymer Science, 39, 3190-3197 (2001).

�U. Solution Properties of Surfactants (On Micelle Formation).

�U-A.Single Surfactant Systems

1. Dielectric Constants and Electrical Conductivities of Sodium Dodecyl Sulfate in

Aqueous Solutions.

M. ABE, K. OGINO, J. Colloid Interface Sci., 80 (1), 58-66 (1981).

2. Dielectric Properties of Sodium Alkyl Sulfate in Aqueous Solutions.

M. ABE, K. OGINO, Yukagaku (J. Jpn. Oil Chem. Soc.), 31 (3), 141-145 (1982) .

3. Estimation of Critical Micelle Concentrations and the Aggregation Numbers of Sodium

Alkyl Sulfates by Isotachophoresis.

K. OGINO, T. KAKIHARA, M. ABE, Colloid Poly. Sci., 265 (7), 604-612 (1987).

4. Micelle Formation and Micellar size by a Light Scattering Technique.

K. OGINO, T. KUBOTA, H. UCHIYAMA, M. ABE, J. Jpn Oil Chem. Soc., 37 (8), 588-591 (1988).

5. Molecular Assemblies of ((Dodecyloxy)methyl)-18-crown-6 in Water.

S. OZEKI, A. KOJIMA, S. HARADA, S. INOKUMA, H. TAKAHASHI, T. KUWAMURA,

H. UCHIYAMA, M. ABE, K. OGINO, J. Phys. Chem., 94 (21), 8207-8212 (1990).

6. Molecular Assemblies of ((Dodecyloxy)methyl)-18-crown-6 in Water: Chelating Effect

of Potassium Ion.

S. OZEKI, S. HARADA, A. KOJIMA, M. ABE, K. OGINO, H. TAKAHASHI, S. INOKUMA,

T. KUWAMURA, J. Phys.Chem., 94 (21), 8213-8217 (1990).

7. Solution Properties of Double-Chained Anionic Surfactants with Two Hydrophilic

Groups and Two Hydrophobic Groups Having Different Alkyl Chains.

Y. KONDO, T. ISODA, M. ABE, A. MASUYAMA, Y. NAKATSUJI, J. Jpn. Oil Chem. Soc.,

44 (12), 1050-1054 (1995). (in Japanese)

8. Solution Properties of Double-Tailed Cationic Surfactants Having Ferrocenyl Groups

in Their Hydrophobic Moieties.

Y. KAKIZAWA, H. SAKAI, K. NISHIYAMA, H. SHOJI, Y. KONDO, N. YOSHINO, M. ABE,

Langmuir, 12 (4), 921-924 (1996).

9. Stepwise Changes in Solution Properties of N-acyl-N-methyltaurinates Having Na+,

Mg+ and Ca2+ Counterions: Formation of Small Micellar Aggregates in Relation to Na+ Ion Capture.

K. MIYAZAWA, T. TAKAHASHI, J. KOHASHI, M. ISHIDA, S. YOSHINO, K. KAMOGAWA,

H. SAKAI, M. ABE, in press.

10.Solution Properties of Amino acid-type New Surfactant.

Tatsuru TABOHASHI, Kazuhiko TOBITA, Kazutami SAKAMOTO, Junichi KOUCHI, Shoko

YOKOYAMA, Hideki SAKAI, Masahiko ABE, Colloids and Srufaces B: Biointerfaces, 20, 79-86,

(2001).

11.Direct Observations of Assemblies of Novel Branched-Tail Fluorinated Anionic Surfactants in

Water.

Masanobu SAGISAKA, Kyung Ok KWON, Hideki SAKAI, Masahiko ABE, Journal of the Japan

Society of Colour Material, 74, 63-67 (2001).

12.Atomic Forse Microscopy Observation of the Nanostructure of Tetradecyltrimethy-lammonium

Bromide Films Adsorbed at the Mica/Solution Interface.

Hideki SAKAI, Hidemoto NAKAMURA, Kozo KOZAWA, Masahiko ABE, Langmuir, 17, 1817-1820,

(2001).

Pluronic Surfactants.

13. Solubilization Behavior of Estriol in an aqueous solution of Pluronic L-64 as a

function of Concentration and Temperature.

Y. SAITO, Y. KONDO, M. ABE, T. SATO, Chem. and Pharm. Bull., 42 (6), 1348-1350 (1994).

14. Effects of Temperature on Micellar Formation and Micellar Structure of Pluronic L-64.

Y. SAITO, Y. KONDO, M. ABE, T. SATO, Yakugaku Zasshi, 114 (5), 325-332 (1994). (in Japanese)

15. Micellar Behavior of Pluronic P-85 in an Aqueous Solution.

K. MIURA, Y. SAITO, T. HORIUCHI, Y. KONDO, M. ABE, T. SATO, J. Soc.

Cosmet. Chem. Jpn., 29 (1), 28-33 (1995). (in Japanese)

16. Volatility and Solubilization of Synthetic Fragrances by Pluronic P-85.

Y. SAITO, K. MIURA, Y. TOKUOKA, Y. KONDO, M. ABE, T. SATO, Dispersion

Sci. and Tech., 17 (6), 567-576 (1996).

17. Effects of Temperature on Micelle and Gel Formation of Pluronic F 88.

K. SUZUKI, Y. SAITO, T. HORIUCHI, Y. TOKUOKA, M. ABE, T. SATO,

J.Cosmet. chem. Jpn., 30 (3), 330-335 (1996). (in Japanese)

18. Poly(ethylene oxide)/poly(propylene oxide)/poly(ethylene oxide) triblock copolymer

as a sustained-release carrier for perfume compounds.

K. SAITO, Y. SAITO, Y. TOKUOKA, M. ABE, T. SATO, J. Amer. Oil Chem. Soc., 74 (1), 55-59

(1997).

19.Inclusion complexation of Triton X-100 with α-、β- and γ-cyclodextrins.

Yoshihiro SAITO, Haruhisa UEDA, Masahiko ABE, Takatoshi SATO, Sherril D. CHRISTIAN,

Colloids and Surfaces A:Physicochemical and Engineering Aspects., 135, 130-108 (1998).

�U-B. Mixed Surfactant Systems.(Hydrocarbon-Hydrocarbon)

20. Solution Property of Mixed Surfactant System. I. -Surface Tension of Aqueous

Solution of Binary Surfactants Systems-

K. OGINO, M. ABE, N. TSUBAKI, Yukagaku (J. Jpn. Oil Chem. Soc.), 31 (11), 953-957 (1982).

(in Japanese)

21. Solution Properties of Mixed Surfactant System (II) -Electric Properties of Anionic-

Nonionic Surfactants in Aqueous Solutions.

K. OGINO, N. TSUBAKI, M. ABE, J. Colloid Interface Sci., 98 (1), 78-83 (1984).

22. Solution Properties of Mixed Surfactant System (III) -The Effect of the Oxyethylene

Groups on Electric Properties of Anionic-Nonionic Surfactants System-.

M. ABE, N. TSUBAKI, K. OGINO, Yukagaku (J. Jpn. Oil Chem. Soc.), 32 (11), 672-676 (1983).

23. Solution Properties of Mixed Surfactant System(IV) -The Effect of Alkyl Groups in

Nonionic Surfactant Systems-.

M. ABE, N. TSUBAKI, K. OGINO, Colloid Poly. Sci., 262, 584-588 (1984).

24. Solution Properties of Mixed Surfactant System. V. - The Effect of Alkyl Groups in

Nonionic Surfactant on Surface Tension of Anionic-Nonionic Surfactant Systems-.

M. ABE, N. TSUBAKI, K. OGINO, J. Colloid Interface Sci., 107 (2), 503-508 (1985).

25. Solution Properties of Mixed Surfactant System. VI. - The Effect of Oxyethylene

Groups in Nonionic Surfactant on Surface Tension of Anionic-Nonionic Surfactant Systems-.

K. OGINO, N. TSUBAKI, M. ABE, J. Colloid Interface Sci., 107 (2), 509-513 (1985).

*26. Studies on Electric Properties of Anionic-Nonionic Mixed Surfactants in Solution.

M. ABE, Report for Saneyoshi Foundation Scholarship, 2, 63-64 (1985). (in Japanese)

*27. Solution Properties of Mixed Surfactant Systems. -The Interaction between Azo Oil

Dyes and Mixed Surfactant Systems-

K. OGINO, M. ABE, ACS Symposium Series, 311, pp. 68-78, American Chemical Society (1986).

28. Effect of Hydrophobic Groups in Nonionic Surfactant on the Solution Property of

SDS-Nonionic Surfactant Mixed Micelles.

M. ABE, T. KAKIHARA, H. UCHIYAMA, K. OGINO, J. Jpn. Oil Chem. Soc., 36(2), 135-141 (1987).

(in Japanese)

29. Solution Properties of Anionic-Amphoteric Mixed Surfactant Systems -SDS-DMLL

Binary System-.

K. OGINO, M. ABE, K. KATO, Y. SAKAMA, J. Jpn. Oil Chem. Soc., 36 (3), 129-134 (1987).

(in Japanese)

30. Solution Properties of Amphoteric-Nonionic Mixed Surfactant Systems -Krafft

Points and Surface Tensions of DMLL-CmPOE20 Binary Systems.

K. OGINO, T. KUBOTA, K. KATO, M. ABE, J. Jpn. Oi1 Chem. Soc., 36 (6), 432-435 (1987).

( in Japanese)

31. Effect of Inorganic Electrolytes on Dissolution Behavior of Mixed Anionic-

Amphoteric Surfactant System.

K. OGINO, K. KATO, M. ABE, J. Am. Oil Chem. Soc., 65 (2), 272-276 (1988).

32. Solution Properties of Mixed Surfactant Systems. - Sodium Dodecyl Sulfate and

Alkyl Polyoxyethylene Ethers Systems-.

K. OGINO, T. KAKIHARA, H. UCHIYAMA, M. ABE, J. Am. Oil Chem. Soc., 65 (3), 405-411 (1988).

33. Mixing Effect of Surfactants on the Foam Formation. -DMLL/AOS Binary System-.

H. UCHIYAMA, T. KUBOTA, M. ABE, K. OGINO, J. Jpn. Oil Chem. Soc., 37 (11), 1032-1036

(1988). (in Japanese)

34. Effect of Inorganic Electrolytes and of pH on Micelle Formation of Mixed

Amphoteric-Anionic Surfactant System.

M. ABE, K. KATO, K. OGINO, J. Colloid Interface Sci., 65 (2), 328-335 (1989).

*35. Solution Properties of Mixed Surfactant Systems. -Effect of Hydrophobic Property

in Nonionic Surfactant on Mixed Micelle Formation-.

K. OGINO, H. UCHIYAMA, T. KAKIHARA, M. ABE, Surfactants in Solution,

Plenum Press, Vol. 7, pp. 413-429 (1989).

36. Viscosities of Anionic-Nonionic Mixed Surfactant Systems.

H. UCHIYAMA, M. ABE, K. OGINO, J. Colloid Interface Sci., 138 (1), 69-73 (1990).

37. Micelle Formation of Pure and Mixtures of Nonionic Surfactants.

M. ABE, T. YAMAGUCHI, H. UCHIYAMA, T. SUZUKI, K. OGINO, J. F. SCANEHORN,

Langmuir, 8 (9), 2147-2151 (1992).

*38. Physico-Chemical Properties of Mixed Surfactant Systems.

K. OGINO, M. ABE, ACS Symposium Series, American Chemical Society, pp. 142-164 (1992).

*39. Solution Properties of Anionic-Nonionic Mixed Surfactant Systems in Mixed

Surfactant Systems.

M. ABE, K. OGINO, Edited by K. OGINO and M. ABE, Marcel Dekker, (1993), pp. 1-21.

*40. Hydrophilic-hydrophilic Interaction of Mixed Surfactant Systems in Mixed Surfactant Systems.

M. ABE, K. OGINO, Edited by K. OGINO and M. ABE, Marcel Dekker, (1993), pp. 189-233.

*41. Future Perspective in Mixed Surfactant Systems.

M. ABE, K. OGINO, Edited by K. OGINO and M. ABE, Marcel Dekker, (1993), pp.383-391.

42.Suface Potentials of Mixed Micelles Composed of Arachidonic Acid and Heptaethylene Glycol

Dodecyl Ether.

Shoko YOKOYAMA, Yoshihiro FUJINO, Tohru KOHNO, Masahiko ABE, Journal of Japan Oil

Chemists Society, 48 (12), 1365-1369 (1999).

�U-C Mixed Surfactant Systems.(Hydrocarbon-Fluorocarbon).

43. Solution Properties of Pure -monohydroperfluoro alkylcarboxylates and its Mixture

with Other Surfactants.

M. ABE, Y. SHIBATA, H. UCHIYAMA, N. YOSHINO, K. OGINO, Jpn. Res. Inst.

Material Tech., 9 (8), 268-275 (1992).

44. Solution Properties of Mixed Fluorocarbon-Hydrocarbon Surfactant Systems.

M. ABE, T. YAMAGUCHI, Y. SHIBATA, H. UCHIYAMA, N. YOSHINO, K. OGINO, S. D. CHRISTIAN,

Colloids and Surfaces, 67, 29-35 (1992).

45.Adsorption and Micelle Formation of Mixed Surfactant Systems in Water. Combination of Top-

Heavy Type Anionic Surfactants.

Gohsuke SUGIHARA, Hiroko YUTA, Ayaki MIYAZINO, Masahiko ABE, Seong-Geun OH,

Journal of Oleo Science, 51 (11), 715-728 (2002).

�V. Interaction between Surfactant and its Related Compounds.

1. The Interaction between an Anionic Surfactant and Oily Material at Oil/Water Interface.

K. OGINO, M. ABE, H. TAKAHASHI, Yukagaku, 30 (1), 26-30 (1981). (in Japanese)

2. Replacement Reaction of Diazonium Salt in the Presence of Sodium Dodecyl Sulfate Micelles.

M. ABE, N. SUZUKI, K. OGINO, J. Colloid Interface Sci., 93 (1), 285-288 (1983).

3. Interactions Between Anionic Surfactants and Oil Dyes in the Aqueous Solutions. II.

-Thermochromism in the Presence of Surfactant Micelle and Dye-Surfactant Complex-.

M. ABE, M. OHSATO, N. SUZUKI, K. OGINO, Bull. Chem. Soc. Jpn., 57 (3), 831-835 (1984).

4. Interaction Between Anionic Surfactants and Oil Dye in the Aqueous Solutions. IV. -

The Effect of Alkyl Chain Length in Surfactant Molecule on the Protonation Equilibrium-

M. ABE, M. OHSATO, K. OGINO, Colloid Polym. Sci., 262, 657-661 (1984) .

5. Interaction Between Surfactants and Oil Dye in the Aqueous Solutions. V. - The Effect

of the Oxyethylene Chain Length and/or the Alkyl Chain Length in Surfactant Molecule on

the Tautomerism of Azo Dye -

M. ABE, M. OHSATO, T. KAWAMURA, K. OGINO, J. Colloid Interface Sci., 104 (1), 228-233 (1985).

6. Interaction Between an Anionic Surfactant and Some Oil Soluble Azo Dyes at Oil/ Water Interface.

M. ABE, T. KASUYA, K. OGINO, J. Jpn. Oil Chem. Soc., 35 (9), 762-767 (1986). (in Japanese)

7. Coloration of Oil Soluble Azo Dye due to Polymorphism of Sodium Alkyl Sulfates.

M. ABE, M. OHSATO, T. KASUYA, K. OGINO, J. Jpn. Oil Chem. Soc., 35 (11), 958-960 (1986).

(in Japanese)

8. Thermodynamics of Surfactant-Dye Complex Formation in Aqueous Solutions.

-Sodium Alkyl Sulfonates and Azo Oil Dye Systems-.

M. ABE, T. KASUYA, K. OGINO, Colloid Polym. Sci., 266 (2), 156-163 (1988).

9. Thermodynamics of Surfactant-Dye Complex Formation in Aqueous Solutions (II)

-Sodium Dodecyl Sulfate and Some Azo Oil Dyes Systems-.

K. OGINO, T. KASUYA, M. ABE, Colloid Polym. Sci., 266 (6), 539-546 (1988).

10. Surface-tension studies of inclusion complexes hexanediols with cyclodextrins in

aqueous solutions.

Y. SAITO, M. ABE, T. SATO, J. F. SCAMEHORN, S. D. CHRISTIA, Colloids and Surfaces A,

119, 149-153 (1996).

�W. Microparticle Dispersion Systems.

1.Evolution and Growth of Oil Droplets in Emulsifier-Free, Metastable Aqureous Dispersions: A Light

Scattering and Conductive Probe Study.

Keiji KAMOGAWA, Toshio SAKAI, Nobuyuki MOMOZAWA, Masao SHIMAZAKI, Masakazu

ENOMURA, Hideki SAKAI, Masahiko ABE, Journal of Japan Oil Chemists, Society, 47 (2), 159-170 ,

(1998).

2.Surfactant-free emulsions.

Abe, Masahiko. Fragrance Journal, 26 (8), 29-41 (1998). (in Japanese)

3.Dispersion and Stabilizing Effects of n-Hexadecane on Tetralin and Benzene Metastable

Droplets in Surfactant-Free Conditions.

Keiji KAMOGAWA, Mitshfumi MATUMOTO, Tatsuya KOBAYASHI, Toshio SAKAI, Hideki SAKAI,

Hideki SAKAI, Masahiko ABE, Langmuir, 15 (6), 1913-1917 (1999).

4.Emulsification without Surfactants.

in “Functional Cosmetics III”, Suzuki ,Masato; Ed CMC Publishing., Section4 Chapter5, 316-325

(2000). (in Japanese)

5.New Aspects of Surfactant-free emulsion.

T.SAKAI, K.KAMOGAWA, H.SAKAI, M.ABE,Journal of Oleo Science, 1 (1), 33-46 (2001).

(in Japanese)

6.Direct Observation of Flocculation/Coalescence of Metastable Oil Drooplets in Surfactant-Free

O/W Emulsion by Freeze Fracture Electron Microscopy.

Toshio SAKAI, Keiji KAMOGAWA, Fuminori HARUSAWA, Nobuyuki MOMOZAWA,

Hideki SAKAI, Masahiiko ABE, Langmuir, 17 (2), 255-259 (2001).

7.Surfactant‐Free O/W Emulsion Formation of Oleic Acid and Its Esters with Ultrasonic

Dispersion.

Keiji KAMOGAWA, Hidetaka AKATSUKA, Mitsufumi MATUMOTO, Shoko YOKOYAMA,

Toshio SAKAI, Hideki SAKAI, Masahiko ABE, Colloids and Surfaces A: Physiccochemical and

Engineering Aspects, 180, 41-53 (2001).

8.Dispersibility of Surfactant‐Free O/W Emulsions and Their Stability Design: A Present Scope from

Hydrocarbons to Some Oleate Esters.

Keiji KAMOGAWA, Hidetaka AKATSUKA, Mutuyoshi MATSUMOTO, Toshio SAKAI,

Tetsuya KOBAYASHI, Hideki SAKAI, Masahiko ABE, Proceedings of the International Conference

on Colloid and Suface Science, Tokyo,Japan,November 5-8,2000, 101-104 (2001).

9.Influence of Oil Droplet Size on Flocculation/Coalescence in Surfactant‐Free Emulsion .

Toshio SAKAI, Keiji KAMOGAWA, Fuminori HARUSAWA, Nobuyuki MOMOZAWA, Hideki SAKAI,

Masahiko ABE, Proceedings of the International Conference on Colloid and Surface

science,Tokyo,Japan,November 5-8,2000, 157-160 (2001).

10.In situ evaluation of dispersion and growth prosesses of o/w emulsion using a nover

conductivity measurement system.

T.SAKAI, K.KAMOGAWA, T.KOBAYASHI , S.ENOMURA, H.SAKAI, M.ABE,

Material Technology, 19(4), 127-134 (2001). (in Japanese)

11.Dispersion Stabilization of surfactant-free emulsion with addition of hydrophobic substance.

M.ABE, T.SAKAI, Fragrance Journal, 12, 21-29 (2001). (in Japanese)

12.Molecular Diffusion of Oil/Water Emulsion in Surfactant-Free Condition.

Toshio SAKAI, Keiji KAMOGAWA, Katsuhiro NISHIYAMA, Hideki SAKAI, Masahiko ABE,

Langmuir, 18 (6), 1985-1990 (2002).

13.Ultrasonic Irradiation for Emulsification.

M.ABE, Ultrasonic Technology, 2002.3-4. 47-53 (2002).

14.Dimpled Polymer Particles Prepared by Single-Step Method in an Acoustic Field.

Toshio SAKAI, Hideki SAKAI, Masahiko ABE, Langmuie, 18, 3763-3766 (2002).

15.Pyrene Fluorescence Measurements of Metastable Oil Droplets in Surfactant-Free Oil-in-Water

Emulsions.

Toshio SAKAI, Keiji KAMOGAWA, Kyonok KWON, Hideki SAKAI, Masahiko ABE, Colloid Polymer

Science, 280, 99-106 (2002).

16.Dye Transfer between Surfactant-Free Nanodroplets Dispersed in Water.

Toshio SAKAI, Yoshihiro TAKEDA, Fumitaka MAFUNE, Masahiko ABE, Tamotsu KONDOW

The Journal of Physical Chemistry B, 106 (19), 5017-5021 (2002).

17.Surfactant-Free Emulsions.

Keiji KAMOGAWA, Masahiko ABE, Marcel Dekker,Inc, 5214-5229 (2002).

18.Suspension Polymerization of Styrene Monomer without Emulsifier and lnitiator.

Gen OKUDAIRA, Keiji KAMOGAWA, Toshio SAKAI, Hideki SAKAI, Masahiko ABE, Journal of Oleo

Science, 52 (3), 167-170 (2003).

19. Emulsion can be prepared without using any surfactant.

Sakai, Hideki; Okubo, Takahiro; Abe, Masahiko. Hyomen, 41 (2), 1-8 (2003). (in Japanese)

20.Dispersion and Stabilization in Water of Droplets of Hydrophobic Organic Liquids with Addition

of Hydriohobic Polymers.

Keiji KAMOGAWA, Naoko KUWAYAMA, Toshiyuki KATAGIRI, Hidetaka AKATUKA, Toshio SAKAI,

Hideki SAKAI, Masahiko ABE, Langmuir, 19 (10), 4063-4069 (2003).

21.Monitoring Growth of Surfactant-free Nanodroplets Dispersed in Water by Single-Droplet

Detection.

Toshio SAKAI, Yoshihiro TAKEDA, Fumitaka MAFUNE, Masahiko ABE, Tamotsu KONDOW,

The Journal of Physical Chemistry B, 107 (13), 2921-2926 (2003).

22.Preparation of Novel Polymer Particles and their Morphology.

T.SAKAI, K.KAMOGAWA, M.ABE, 287-296 (2003). (in Japnese)

�X. Surface Chemical Function (Solubilization).

V-A. Single Surfactant Systems.

1. Solubilizing Power of Some Anionic Surface Active Agents.

K. OGINO, M. ABE, J. Am. Oil Chem. Soc., 52 (11), 465-468 (1975).

2. A Study of the Solubilization of Polar Oily Materials by Sodium Dodecyl Sulfate.

K. OGINO, M. ABE, N. TAKESHITA, Bull. Chem. Soc. Jpn., 49 (12), 3679-3683 (1976).

3. Study on Solubilization by Electrophoresis and Diffusion.

K. OGINO, M. ABE, N. TAKESHITA, Bull. Chem. Soc. Jpn., 51 (6), 1880-1882 (1978).

4. Thermodynamic Studies of l-Dodecanol and SDS in Aqueous Solution.

M. ABE, K. OGINO, J. Colloid Interface Sci., 80 (1), 146-152 (1981).

5. Dielectric Properties of Solutions of Oily Materials Solubilized by Sodium Dodecyl

Sulfate in Aqueous Solutions.

M. ABE, A. SHIMIZU, K. OGINO, J. Colloid Interface Sci., 88 (2), 319-325 (1982).

6. Dielectric Properties of Aqueous Solutions of Oily Materials Solubilized by Sodium

Dodecyl Sulfate. II.

M. ABE, K. OGINO, Yukagaku (J. Jpn. Oil Chem. Soc)., 31 (9), 569-573 (1982).

7. Solubilization of Azo Oil Dyes by Sodium Dodecyl Sulfate.

M. ABE, N. TSUBAKI, K. OGINO, J. Colloid Interface Sci., 99 (1), 226-234 (1984).

*8. Studies on Solubilization of Oily Materials and Oil Dyes by Surface Active Agents.

M. ABE, J. Jpn. Oil Chem. Soc., 36 (8), 549-554 (1987) . ( in Japanese)

9. Solubilization of Some Organic Perfumes by Sodium Dodecyl Sulfate.

M. ABE, Y. TOKUOKA, H. UCHIYAMA, K. OGINO, J. Jpn. Oil Chem. soc.,

39 (8), 565-571 (1990). (in Japanese)

10. Solubilization of 2-Phenethyl Alcohol by Dodecyldimethylamine Oxide in Aqueous Solution.

H. UCHIYAMA, S. D. CHRISTIAN, J. F. SCANEHORN, M. ABE, K. OGINO,

Langmuir, 7 (1), 95-100 (1991).

11. Solubilization of Some Synthetic Perfumes by Nonionic Surfactants.

Y. TOKUOKA, H. UCHIYAMA, M. ABE, K. OGINO, J. Colloid Interface Sci., 152 (2), 402-409 ,

(1992). (in Japanese)

12. Effects of Micellar Structure on Solubilization of n-octanel and n-octanol.

Y. SAITO, M. ABE, T. SATO, Colloid Polym. Sci., 271, 774-779 (1994).

13. Solubilization Equilibrium Constants of Synthetic Perfumes in the Micellar Solutions

of Nonionic Surfactants.

Y. KONDO, K. MIZUGUCHI, Y. TOKUOKA, H. UCHIYAMA, K. KAMOGAWA,

M. ABE, .J. Jpn. Colour Material, 68 (5), 271-276 (1995). (in Japanese)

14. Solubilization of Binary Perfumes by Sodium Dodecyl Sulfate Aqueous Solutions.

Y. TOKUOKA, M. ABE, J. Jpn. Oil Chem. Soc., 45 (7), 635-640 (1996).

15. Effect of pH on Solubilization of Benzene Derivatives by Dodecyltrimethyl-

ammonium Bromide Micelles.

T. SHINOHARA, H. SAKAI, K. OGINO, Y. KONDO, N. YOSHINO, M. ABE,

J.Jpn. Oil Chem. Soc., 46 (2), 183-190 (1997). (in Japanese)

16.Redox Control of the Solubilization of Benzene with a Ferrocene-Modified Nonionic Surfactant.

H.SAKAI, T.TAKEI, Y.KAKIZAWA, Y.KONDO, N.YOSHINO, M.ABE,

Japan Oil Chemists' Society, 47 (12), 1337-1343 (1998). (in Japanese)

17.Effect of Ferrocenyl Group Oxidaion on Micelle Formation and Benzene Derivatives

Solubilization of a Cationic Ferrocenylated Surfactant.

Yasushi KAKIZAWA, Hideki SAKAI, Tetsuo SAJI, Norio YOSHINO, Yukishige KONDO,

Masahiko ABE, Journal of the Japan Society of Colour Material, 72 (2), 78-87 (1999).

18.Electrochemical Control of Solubilization by Redox-Active Surfactants.

H.SAKAI, M.ABE, Japan Oil Chemists' Society ,49 (10), 1279-1288 (2000). (in Japanese)

19.Electrochemical Control of Solubilization Using a Ferrocene-Modified Nonoionic Surfactant.

Takuto TAKEI, Hideki SAKAI, Yukishige KONDO, Norio YOSHINO, Masahiko ABE, Colloids and

Surfaces A: Physicochemical and engineering Aspects, 183-185, 757-765 (2001).

20.Electrochemical Behavior of Ferrocene Solubilized in Surfactant Micelles: Electrostatic

Interaction Between Ferricium Ion and Anionic Micelles.

Hideki SAKAI, Tatsuya MATUMI, Yasushi KAKIZAWA, Hitoshi IMAMURA, Takuto TAKEI,

Koji TSUCHIYA, Aritomo YAMAGUCHI, Masahiko ABE, Journal of Oleo Science, 50 (12), 937-943

(2001).

21.Reversible Release Control of an Oily Substance Using Photoresponsive Micelles.

Yoichi ORIHARA, Atsutoshi MATUMURA, Yoshihiro SAITO, Naotake OGAWA, Tetsuo SAJI,

Aritomo YAMAGUCHI, Hideki SAKAI, Masahiko ABE, Langmuir, 17(20), 6072-6076 (2001).

22.Redox Control of Solubilization with a Single-Tailed Cationic Surfactant Bearing Ferrocenyl

Moiety.

Y.KAKIZAWA, H.SAKAI, Y.KONDO, N.YOHSINO, M.ABE, Material Technology, 19 (6), 259-266 ,

(2001). (in Japanese)

V-B. Mixed Surfactant Systems. (Hydrocarbon and Fluorocarbon).

23. Protonation Equilibrium of Azo Oil Dye in the Aqueous Solution of Mixed Surfactant System.

M. ABE, M. OHSATO, H. UCHIYAMA, N. TSUBAKI, K. OGINO, J. Jpn Oil Chem. Soc.,

35 (7), 522-528 (1986).

24. Solubilization of Oil Soluble Azo Dye by Anionic-Nonionic Mixed Surfactants in Aqueous Solution.

H. UCHIYAMA, M. ABE, K. OGINO, J. Jpn. Oil Chem. Soc., 35 (12), 1031-1035 (1986).

(in Japanese)

*25. Solubilization by Nonionic Surfactants and Various Mixed Surfactants.

K. OGINO, H. UCHIYAMA, M. ABE, Hyomen, 26 (9), 652-663 (1988) . (in Japanese)

26. Solubilization of Oleyl Alcohol by Mixed Surfactant Systems.

M. ABE, T. KUBOTA, H. UCHIYAMA, K. OGINO, Colloid Polym. Sci., 267 (4), 365-370 (1989).

27. Solubilization of Oil Soluble Azo Dye by Anionic-Nonionic Mixed Surfactants in

Aqueous Solution. II.

H. UCHIYAMA, Y. TOKUOKA, M. ABE, K. OGINO, J. Colloid Interface Sci., 132 (1), 88-93 (1989).

28. Expansion of Mixed Anionic-Nonionic Micelles by Solubilization of Organic Solutes.

M. ABE, Y. TOKUOKA, H. UCHIYAMA, K. OGINO, J. F. SCAMEHORN, Colloids and Surfaces,

67, 37-43 (1992).

29. Solubilization of Perfume Compounds by Pure and Mixtures of Nonionic Surfactants.

M. ABE, K. MIZUGUCHI, Y. KONDO, K. OGINO, H. UCHIYAMA, J. F.

SCAMEHORN, E. E. TUCKER, S. D. CHRISTIAN, J. Colloid Interface Sci., 160, 16-23 (1993).

30. Solubilization Behavior of n-Octane and n-Octanol in Polyoxyethylated Nonionic Micelles.

Y. SAITO, M. ABE, T. SATO, J. Amer. Oil Chem. Soc., 70 (7), 717-721 (1993).

*31. To dissolve Synthetic Perfumes into Water.

Y. TOKUOKA, M. ABE, Hyomen, 33 (6), 397-404 (1995). (in Japanese)

32. Solubilization of Some Synthetic Perfumes by Anionic-Nonionic Mixed Surfactant Systems. I.

Y. TOKUOKA, H. UCHIYAMA, M. ABE, S. D. CHRISTIAN, Langmuir, 11, 725-729 (1995).

33.Solubilization of Some Synthetic Perfumes by Anionic-Nonionic Mixed Surfactant Systems. II.

Y. TOKUOKA, H. UCHIYAMA, M. Abe, J. Phys. Chem., 98, 6167-6171 (1994).

34. Solubilization of Some Synthetic Perfumes by Ionic and Non-Ionic Surfactants.

Y. TOKUOKA, H. UCHIYAMA, M. ABE, J. Jpn. Oil Chem. Soc., 45 (1), 21-28 (1996).

35.Electrochemical Behavior of a Ferrocene-Modified Cationic Surfactant Mixed with an Anionic

Surfactant in Aqueous Solutions.

Koji TSUCHIYA, Hideki SAKAI, Kyungok KWON, Takuto TAKEI, Masahiko ABE, Journal of Oleo

Science,51 (2),133-140 (2002).

VI. Functional Colloidal Assemblies (Microemulsions).

1. Microemulsion Formation with Branched Tail Polyethylene Sulfonate Surfactants.

M. ABE, D. Schechter, R. S. Schechter, W. H. Wade, U. Weerasooriya, S. Yiv,

J.Colloid Interface Sci., 114 (2), 342-356 (1986).

2. Phase Behavior of Branched Tail Ethoxylated Carboxylate Surfactant/ Electrolyte/Alkane

Systems.

M. ABE, R. S. Schechter, R. D. SELLIAH, B. SHEIKH, W. H. WADE, J. Dispersion

Sci. Tech., 8 (2), 157-172 (1987).

3. Dynamic Processes in W/O Type Microemulsions by A Dynamic Light Scattering

Technique. M. ABE, M. NAKAMAE, K. OGINO, W. H. WADE, Chemistry Letters,

1987 (8), 1613-1616, (1987).

4. Distribution Measurement of Sodium Octyl Sulfate in Multiphase Microemulsion on

the Basis of Extraction-Spectrophotometric Method.

M. NAKAMAE, K. OGINO, M. ABE, Colloid Poly. Sci., 266 (5), 475-478 (1988).

5. Phase Behavior of Sodium Alkyl Sulfate/n-Alkane/Co-surfactant/Brine Systems.

I. -Effect of Salinity on Microemulsion Formation-.

M. ABE, M. NAKAMAE, K. OGINO, J. Petroleum Institute (Sekiyu Gakkaishi),

31 (6), 458-465 (1988). (in Japanese)

6. Phase Behavior of Sodium Alkyl Sulfate/n-Alkane/Co-surfactant/Brine Systems.

II. -Effect of Co-surfactant on Microemulsion Formation.

M. NAKAMAE, M. ABE, K. OGINO, J. Petroleum Institute (Sekiyu Gakkaishi),

31 (6), 466-472 (1988). (in Japanese)

7. Properties and Structure of Microemulsions of the System Sodium Octyl Sulfate/n-

Hexyl Alcohol/n-Dodecane/Brine.

K. OGINO, M. NAKAMAE, M. ABE, J. Physi. Chem., 93 (9), 3704-3710 (1989).

8. Microemulsion Formation with Nonionic Surfactants. - The Effect of Temperature on

the Middle Phase Microemulsion Formation in Nonionic Surfactant/Alkane/Water Systems-

M. ABE, H. NISHINO, K. OGINO, J. Petroleum Institute (Sekiyu Gakkaishi), 32 (3), 151-157 (1989).

*9. Microemulsion Formation with Nonionic Surfactants.

K. OGINO, H. NISHINO, M. ABE, Proceedings of ISF-JOCS World Congress 1988,

Vol. II, pp. 669-675, The Japan Oil Chemists' Society, June 1989.

10. The Effect of Alkyl Chain Lengths in Sodium Alkyl Sulfates and n-Alkanes on

Microemulsion Formation.

M. NAKAMAE, M. ABE, K. Ogino, J. Colloid Interface Sci., 135 (2), 449-454 .(1990).

11. Effects of Various Additives on the Solution Properties of Middle Phase

Microemulsion with Nonionic Surfactants.

H. NISHINO, A. KUWABARA, M. ABE, K. OGINO, Sekiyu Gakkaishi, 33 (4), 234-240 (1990).

( in Japanese)

12. Phase Behavior of Four-Component Microemulsions with Anionic Surfactant and

Aromatic Hydrocarbons.

T. YAMAZAKI, M. NAKAMAE, M. ABE, K. Ogino, Sekiyu Gakkaishi (J. Petroleum Institute),

33 (4), 241-246 (1990) . (in Japanese)

13. Effects of Hydrophobic Groups in Surfactants and Alkanes on the Phase Equilibrium

Rate of Middle Phase Microemulsion.

M. NAKAMAE, M. ABE, K. OGINO, Sekiyu Gakkaishi (J. Petroleum Institute), 33 (4), 247-247 (1990).

14. Effect of Alkyl Chain Lengths of Surfactants and Alkanes on Middle Phase

Microemulsions Formation.

M. ABE, T. YAMAZAKI, K. TADA, K. OGINO, Jpn. Res. Inst. Material Tech., 8 (9), 313-321 (1990).

(in Japanese)

15. The Phase Behavior and Physicochemical Properties of Sodium Octyl Sulfate/n-

Decane/n-Hexanol/Aqueous AlCl3 Middle Phase Microemulsion.

M. ABE, T. YAMAZAKI, K. OGINO, M. J. KIM, Langmuir, 8, 833-837 (1992).

16. Properties of O/W-Type Microemulsion with Dimyristoylphosphatidylcholine.

M. ABE, I. YAJIMA, K. OGINO, N. TSUBAKI, Y. NAKANO, J. Jpn. Soc. Colour Formation. Material,

65 (4), 212-219 (1992). (in Japanese)

*17. Preparations and Properties of Microemulsions for Enhanced Oil Recovery.

K. OGINO, M. ABE, Sekiyu Gakkaishi, 35 (3), 213-225 (1992). (in Japanese)

18. Phase Behavior of Amphoteric Surfactant/Electrolyte/Cosurfactant/Alkane Systems.

M. ABE, A. KUWABARA, K. OGINO, H. OHSHIMA, T. KONDO, M. J. KIM,

J. Surface Sci. Tech., 8 (2), 155-172 (1992).

*19. Microemulsion Formation with Some Typical Surfactants.

K. OGINO, M. ABE, in "Surface and Colloid Science", E. MATIJEVIC,Ed., Plenum Press,

Vol. 15, pp.85-123 (1993).

20. Properties of Microemulsion with Anionic/Cationic Mixed Surfactants.

M. ABE, I. YAJIMA, K. OGINO, Sekiyu Gakkai Shi, 36 (4), 326-333 (1993). (in Japanese)

21. Simulation for Multiphase Microemulsion.

M. ABE, T. YAMAZAKI, A. NUKITA, Material Technology, 11 (1), 6-10 (1993).

22. Thermodynamic Consideration for Middle Phase Microemulsion Formation.

T. Yamazaki, A. NUKITA, K. OGINO, S. MURATA, S. URABE, M. ABE, Sekiyu Gakkaishi,

37 (6), 569-575 (1994). (in Japanese).

23. Thermodynamic Consideration for Middle Phase Microemulsion Formation (2)

M. ABE, A. NUKITA, S. MURATA, S. URABE, Material Technology, 13 (2), 35-40 (1995).

(in Japanese)

24. Preparation and Properties of Microemulsions with Sodium 2-Sulfonatofatty Acid

Higher Alkyl Esters.

Y. HIRANO, T. OKANO, S. MURATA, S. URABE, M. ABE, J. Jpn. Soc. Colour Material,

68 (3), 149-155 (1995). (in Japanese)

25 The Effect of Hydrophobic Chains of Sodium Alkyl Sulfates and Alkanes on the

Heat for Microemulsion Formation.

M. NAKAMAE, M. ABE, Material Technology, 14 (2), 47-51 (1996). (in Japanese)

*26.M. ABE, Anionic Surfactants in Applied Thermal Analyses, Nikkann Kogyou

Shinbun, pp.78-79 (1996).

27. The Effect of Co-surfactant Concentrations on the Heat for Microemulsion Formation.

M. NAKAMAE, M. ABE, Material Technology, 14 (3), 76-80 (1996). (in Japanese)

*28. Microemulsions in Enhanced Oil Recovery -Middle-Phase Microemulsion

Formation with Some Typical Anionic Surfactants- in Industrial Applications of

Microemulsions, Edited by C. SOLANS and H. KUNIEDA, Marcel Dekker, pp.279-303 (1997).

29. Effect of Oxyethylene Chain Length in Double-Tail Anionic Surfactant on Middle-

Phase Microemulsion Properties.

Y. HIRANO, H. SAKAI, S. HASHIMOTO, M. ABE, J. Jpn. Oil Chem. Soc., 46 (6), 661-669 (1997).

(in Japanese)

31. Preparation and Properties of Multiphase Microemulsions with Some

Phosphatidylcolines Having Different Alkyl Chains.

I. YAJIMA, H. SAKAI, K. MIYAZAWA, N. KAWASHIMA, N. TSUBAKI, J. F. HARWELL, M. ABE,

Colloids and Surfaces B: Biointerfaces, 9, 177-186 (1997).

Surface-Electrical Study.

32. Binding Constants of Inorganic Electrolytes and Aggregation Numbers of O/W Type

Microemulsion with an Amphoteric Surfactant.

M. ABE, A. KUWABARA, K. YOSHIHARA, K. OGINO, M. J. KIM, T. KONDO, H. OHSHIMA,

J. Phys. Chem., 99 (11), 2991-2998 (1994).

33. Binding Constants of Symmetric or Anti-symmetric Electrolytes and Aggregation

Numbers of O/W Type Microemulsion with a Nonionic Surfactant.

K. YOSHIHARA, H. OHSHIMA, N. MOMOZAWA, M. ABE, Langmuir, 11 (8), 2979-2984 (1995).

34. Determination of the Binding Constants of Sodium and Chloride ions and

Aggregation Numbers of Amphoteric Surfactant Microemulsions by a Novel Numerical Analysis.

K. YOSHIHARA, N. MOMOZAWA, T. WATANABE, K. KAMOGAWA, H. SAKAI,

M. ABE, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 109, 235-243 (1996).

35. Binding Constants of Aluminium Chloride and Aggregation Numbers in Oil-in-Water

Type Microemulsions Formed by an Amphoteric Surfactant.

K. YOSHIHARA, N. MOMOZAWA, H. SAKAI, M. ABE, Material Technology, 14 (5), 144-153 (1996).

36. Binding Constants of Calcium and Magnesium Electrolytes and Aggregation

Numbers in Oil-in-Water Type Microemulsions with Amphoteric Surfactant.

K. YOSHIHARA, H. OHSHIMA, N. MOMOZAWA, H. SAKAI, K. NISHIYAMA, M. ABE,

Colloid Poly. Sci., 274, 685-695 (1996).

*37. Binding Constants of Electrolytes and Aggregation Numbers in Oil-in-Water Type

Microemulsions by a Surface-Electrical Method.-Part I: an Ionic (Amphoteric) Surfactant-

K. YOSHIHARA, M. ABE, Hyomen, 35 (1), 41-53 (1997). (in Japanese)

*38. Binding Constants of Electrolytes and Aggregation Numbers in Oil-in-Water Type

Microemulsions by a Surface-Electrical Method. -Part II: a Nonionic Surfactant-

K. YOSHIHARA, M. ABE, Hyomen, 35 (1), 167-174 (1997). (in Japanese)

39.A Novel Numerical Analysis on Surface Charge Densities of an Amphoteric O/W-type

Microemulsion in the Presence of CaCl2 and/or AlCl3.

K. YOSHIHARA, N. MOMOZAWA, H. SAKAI, M. ABE, J. Colloid and Interface Science,

191, 48-57 (1997).

40.Binding Constants of Electrolytes and Aggregation Numbers in Oil-in-Water Type

Microemulsions by a Surface-Electrical Method -Part �T:an Ionic (Amphoteric) Surfactant-.

K.YOSHIHARA, M.ABE, Reviews and Topics on Surface Science & Technology Avant- garde,

Vol.35.No. 1 pp.41-53 (1997). (in Japanese)

41.Effective Dispersion of Water into Suipercritical Carbon Dioxide

K.OTAKE, M.SAGISAKA, N.YOSHINO, M.ABE, Reviews and Topics on Surface Science &

Technology Avant-garde, 40 (10), 353-367 (2002). (in Japanese)

42.Phase Behavior and Interfacial Properties of Water-in-Supercritical CO2 Microemulsions Formed

with Aid of Fluorinated Surfactants.

Masanobu SAGISAKA, Yoshinobu OZAKI, Satoshi YODA, Yoshihiro TAKEBAYASI, Katsuto OTAKE,

Yukishige KONDO, Norio YOSHINO, Hideki SAKAI, Masahiko ABE, Material Technology, 21,36-42

(2003).

43.Preparation of a W/SCCO2 Microemulsion Using Fluorinated Surfactants.

Masanobu SAGISAKA, Satoshi YODA, Yoshihiro TAKEBAYASI, Katsuto OTAKE,

Boonyarach KITILYANAN, Yukishige KONDO, Norio YOSHINO, Kei TAKEBAYASHI

Hideki SAKAI, Masahiko ABE, Langmuir, 19, 220-225 (2003).

44.Water in Supercritical CO2 Microemulsion Formation by Fluorinated Surfactants.

Takabumi NAGAI, Kazuhisa FUJII, Katsuto OTAKE, Masahiko ABE, Chemistry Letters, 32 (4),

384-385 (2003).

45.Effects of CO2-Philic Tail Structure on Phase Behavior of Fluorinated Aerosol-OT

Analogue Surfactant/Water/Supercritical CO2 Systems.

M.SAGISAKA, S.YODA, Y.TAKEBAYASHI, K.OTAKE, Y.KONDO, N.YOSHINO, H.SAKAI, M.ABE,

Langmuir, 19 ( 20), 8161-8167 (2003).

�Z. Emulsification and Emulsions.

1. Fundamental Study on Emulsion-Fuels (I) -Effect of Nonionic Surfactants on Water

Content and Particle Size in W/O Type Emulsions-.

K. OGINO, M. ABE, H. NISHINO, J. Fuel Soc. Jpn., 67 (3), 167-171 (1988) . (in Japanese)

2. Fundamental Study on Emulsion-Fuels (II) -Effect of Hydrophobic Chain Length on

Water Content and Particle Size in W/O Type Emulsions-.

M. ABE, H. NISHINO, K. OGINO, J. Fuel Soc. Jpn., 67 (10), 856-861 (1988). (in Japanese)

*3. Easy Explanation of Emulsification (Emulsification and Emulsion).

K. OGINO, M. ABE, SUT Bulletin, 12-24 (1990).

*4. Recent Progress in Emulsion and Emulsion Technology.

M. ABE, J. Jpn. Oil Chem. Soc., 41 (2), 117-124 (1992). (in Japanese)

*5. Emulsification.

M. ABE, J. Jpn. Soc. Colour Material., 67 (4), 263-272 (1994). (in Japanese)

6.Properties of W/O-Type Emulsions with Surfactants and Oils derived from an Oleic Acid.

M. ABE, K. KOSAKA, K. YOSHIHARA, K. SAITO, M. SUZUKI, J. Jpn. Soc. Colour Material.,

68 (3), 135-141 (1995). (in Japanese)

7. Properties of O/W-Type Emulsions with Surfactants and Oils Derived from High Purity Oleic

Acid.

K. KOSAKA, K. YOSHIHARA, Y. HIRANO, K. SAITO, M. SUZUKI, M. ABE,

Material Technology, 13 (9), 279-285 (1995). (in Japanese).

*8.Principle and Application of Emulsisification in Theory and Application of

Emulsification and Dispersion Technique. Edited by E. OHSHIMA, Y. HIRATA,

Tokushukikakougyou, Chapter 11, pp.203-234 (1997). (in Japanese)

9.Macro- and Microemulsions.

Abe, Macro- and Microemulsions, J. Jpn. Oil Chem. Soc., 47 (9), 819-843 (1998).

10.Emulsification Characteristics of Diglycerol Tetraoleate

Y.SAKAI, M.TAKENOUCHI, M.ABE, Journal of the Japan Society of Colour Material,

Vol.73, No.2 pp.47-52 (2000). (in Japanese)

11.O/W emulsion, electrokinetic sonic amplitude, particle size, oleic acid, oleyl alcohol.

T.YAMAMOTO, H.SAKAI, Y.SAKAI, K.OZAWA, F.HARUSAWA, K.KAMOGAWA, M.ABE,

Material Technology, Vol.18, No. 2 , pp.53-61 (2000). (in Japanese)

12.Mixing Effect of Oils on the Lowering of Oil/Water Interfacial Tension.

K.KUDO, Y.SAKAI, H.SAKAI, M.IWAHASHI, K.KAMOGAWA, F.HARUSAWA, M.ABE,

The Japan Society of Colour Material, Vol.73, No.6, pp. 275-281 (2000). (in Japanese)

13. Effects of polarity of oil on the properties of emulsions prepared using nonionic surfactants.

Sakai, Yuji; Fujii, Hidetoshi; Sakai, Hideki; Harusawa, Fuminori; Abe, Masahiko; Takenouchi,

Masanori; Kamogawa, Keiji, Material Technology, 18 (9), 351-358 (2000). (in Japanese)

14.Emulsifying Potency of New Amino Acid-Type Surfactant (1) - O/W　Emulsions -.

Junichi KOUCHI, Tatsuru TABOHASHI, Shoko YOKOYAMA, Fuminori HARUSAWA,

Aritomo YAMAGUCHI, Hideki SAKAI, Masahiko ABE, Journal of Oleo Science, 50 (11), 847-855

(2001).

15.Emulsifying Potency of New Amino Acid-Type Surfactant (2): Stable W/O Emulsions Containing

85 wt% Inner Water Phase.

Shoko YOKOYAMA, Junichi KOUCHI, Tatsuru TABOHASHI, Fuminori HARUSAWA,

Aritomo YAMAGUCHI, Hideki SAKAI, Masahiko ABE, Chem. Pharm. Bull, 49 (10),1331-1335 (2001).

16. New Trends in Emulsification Technique.

Abe, Masahiko; Sakai Toshio,

in “ Functional Emulsions --Technique, Evaluation and Application--“, Chapter 1 , 3-33

Kakuta, Mitsuo, Ed., CMC Publishing (2002). (in Japanese)

17. Evaluation Techniques of Emulsions.

Abe, Masahiko; Sakai Toshio,

in “ Functional Emulsions --Technique, Evaluation and Application--“, Chapter 8, 86-102

Kakuta, Mitsuo, Ed., CMC Publishing (2002). (in Japanese)

�[. Applied Research of Surfactants.

Fading Phenomena of Dye.

1. Fading Phenomenon of Azo Oil Dye in Anionic-Nonionic Surfactant Solutions.

K. OGINO, H. UCHIYAMA, M. OHSATO, M. ABE, J. Colloid Interface Sci., 116 (1), 81-87 (1987).

2. Fading Phenomena of Azo Oil Dye in Anionic-Nonionic Surfactant Solutions. II. -

Effect of Alkyl Groups and/or Oxyethylene Ones in Nonionic Surfactant on the Fading Rate - .

K. OGINO, H. UCHIYAMA, M. ABE, Colloid Polym. Sci., 265 (1), 52-57 (1987).

3. Fading Phenomena of Azo Oil Dye in Anionic-Nonionic Surfactant Solutions. III. -

The Effect of Solubilizates on the Fading Behavior of Azo Oil Dye in Mixed Surfactant Systems - .

H. UCHIYAMA, M. ABE, K. OGINO, Colloid Polym. Sci., 265 (9), 838-844 (1987).

4. Fading Phenomena of Azo Oil Dyes in Anionic-Nonionic Surfactant Solutions. IV.

-Singlet Oxygen Formation in the Mixed Micelle-.

H. UCHIYAMA, M. ABE, K. OGINO, Langmuir, 6 (12), 1763-1768 (1990).

�\. Surfactant Vesicles.

1. Solubilization of 2-Phenylethanol in Surfactant Vesicles and Micelles.

Y. KONDO, M. ABE, K. OGINO, H. UCHIYAMA, J. F. SCAMEHORN, E. E.

TUCKER, S. D. CHRISTIAN, Langmuir, 9 (4), 899-902 (1993).

2. Stability of Surfactant Vesicles formed from Cationic Didodecyldimethylammonium bromide.

Y. KONDO, M. ABE, K. OGINO, H. UCHIYAMA, E. E. TUCKER, J. F.

SCAMEHORN, S. D. CHRISTIAN, Colloids and Surfaces, B: Biointerfaces, 1 (1), 51-56 (1993).

3. Bilayer Properties of Properties of Sodium 2-Sulfonatofatty Acid Higher Alkyl Esters.

M. ABE, Y. OKUMA, K. O. KWON, K. OGINO, T. OKANO, J. TANABE, M. FUKUDA,

J. Jpn. Oil Chem. Soc., 42 (11), 929-934 (1993). (in Japanese)

4. Effect of Temperature on Solubilization of Aromatic Compounds by Didodecyl-

dimethylammonium Bromide Vesicles.

Y. KONDO, T. SHINOHARA, H. SAKAI, M. ABE, J. Jpn. Oil Chem. Soc., 46 (2),165-174 (1997).

5. Vesicle Diameter Effect on Solubilization of Aromatic Compounds by Aqueous

Solutions of Didodecyldimethylammonium Bromide Vesicles.

Y. KONDO, N. YOSHINO, C. KAISE, H. SAKAI, M. ABE, . Jpn. Oil Chem. Soc.,

46 (3), 323-329 (1997).

6. Solubilization of Aromatic Compounds by Vesicles Prepared with Double-Chained

Cationic Surfactants -Effect of Dialkyl Chain Length-

C. KAISE, H. SAKAI, Y. KONDO, N. YOSHINO, M. ABE, J. Jpn. Soc. Colour Material.,

70 (4), 242-250 (1997). (in Japanese)

7. Effect of pH on solubilization of benzene derivatives by dodecyltrimethylammonium

bromide micelles.

Shinohara, Takayuki; Sakai, Hideki; Ogino, Keizo; Kondo, Yukishige; Yoshino, Norio;

Abe, Masahiko, Nihon Yukagakkashi, 46 (2),183-190 (1997). (in Japanese)

8.Solubilization of Aromatic Compounds by Vesicles Loaded with Cyclodextrin.

Chihiro KAISE, Hideki SAKAI, Yukishige KONDO, Norio YOSHINO, Jiradej MANOSROI,

Aranya MANOSROI, Yoshihiro SAITO, Masahiko ABE, Journal of the Japan Sociey of Colour

Material, 71 (1), 16-23 (1998).

9.Photochemical Switching of Vesicle Formation Using an Azobenzene-Modified Srufactant.

Hideki SAKAI, Atsutoshi MATSUMURA, Shoko YOKOYAMA,Tetsuo SAJI, Masahiko ABE,

Journal of Physical Chemistry, 103 (49), 10737-10740 (1999).

10.Shapes and Sizes of Sulfosuccinate-type Fluorocarbon Surfactant Vesicles in Aqueous Solutions.

Masahiko ABE, Yukishige KONDOU, Masanobu SAGISAKA, Hideki SAKAI, Yoichi MORITA,

Chihiro KAISE, Norio YOSHINO, Journal of the Japan Society of Colour Material, 73 (2), 53-59 ,

(2000). (in Japanese)

11.Active Control of Vesicle Formation with Photoelectrochemical Switching.

Hideki SAKAI, Atsutoshi MATSURA, Masahiko ABE, Proceedings of the International Conference on

Colloid and Surface Science, Tokyo,Japan,November5-8,2000., 505-508 (2001).

12.Electrochemical Control of Vesicle Formation with a Double-Tailed Cationic Surfactant Bearing

Ferrocenyl Moieties.

Yasushi KAKIZAWA, Hideki SAKAI, Aritomo YAMAGUCHI, Yukishige KONDO, Norio YOSHINO,

Masahiko ABE, Langmuir, 17 (26), 8044-8048 (2002).

13.Vesicles Formation of Double-Chain Cationic Surfctants with Different Chain-Lengths in Deep

Sea Water.

Chihiro KAISE, Hideki SAKAI, Aritomo YAMAGUCHI, Shoko YOKOYAMA, Teruhisa

KANEKO, Youichiro ARAI, Masahiko ABE, Journal of Oleo Science, 51 (1), 43-50 (2002).

14.Characteriztion of Vesicles Prepared with Various Non-ionic Surfactants Mixed with Choresterol.

Aranya MANOSROI, Paveena WONGTRAKUL, Jiradej MANOSROI, Hideki SAKAI,

Fumio SUGAWARA, Makoto YUASA, Masahiko ABE, Colloids and Surfaces B: Biointerfaces,

30, 129-138 (2003).

Spontaneous Vesicle Formation.

15.Spontaneous Vesicle Formation in the Aqueous Solutions of Didodecyldimethylammonium

Bromide and Sodium Decylsulfate Mixtures.

Y. KONDO, H. UCHIYAMA, N. YOSHINO, T. WATANABE, K. NISHIYAMA, M. ABE,

Material Technology, 12 (10), 314-319 (1994). (in Japanese)

16. Spontaneous Vesicle Formation from the Aqueous Solutions of Didodecyldimethylammonium

Bromide and Sodium Dodecylsulfate Mixtures.

Y. KONDO, H. UCHIYAMA, N. YOSHINO, K. NISHIYAMA, M. ABE, Langmuir,

11 (7), 2380-2384 (1995).

17.Active control of Vesicle Formation Using Switchable Redox Surfactant.

H. SAKAI, H. IMAMURA, Y. KAKIZAWA, M. ABE, Y. KONDO, N. YOSHINO, J. F. HARWELL,

DENKI KAGAKU, 65 (8), 669-672 (1997).

�]. Concentrated Solution Systems.

1. Solution Properties of Concentrated Anionic-Nonionic Mixed Surfactant Systems.

M. ABE, T. HIRAMATSU, Y. TOKUOKA, H. UCHIYAMA, K. OGINO, J. Jpn. Oil Chem. Soc.,

39 (9), 649-653 (1990). (in Japanese)

2. Phase Diagrams of Surfactant/Water/Synthetic Perfume Ternary Systems.

Y. TOKUOKA, H. UCHIYAMA, M. ABE, Colloid Polym. Sci., 272 (3), 317-323 (1994).

Pharmacy Relatioins

1.Surface Chemical Study on Base-Catalyzed Degradation (lsomerization) of Prostanglandin A2.

Shoko YOKOYAMA, Kaname HASHIZAKI, Masahiko ABE, Journal of Japan Oil Chemists Society,

48 (6), 569-575 (1999).

2.Preparation and Physicochemical Properties of New Crystalline Complexes Composed of Fatty

Acids and 2-Aminoethanol.

Shoko YOKOYAMA, Masahiko ABE, Material Technology, 17 (5), 211-215 (1999).

3.Comparison of Prednisolone Production from Cortexolone by Free and Immobilized Isolated and

Standard Collection Strains Using Mixed Culture Techniques.

Jiradej MANOSROI, Aranya MANOSROI, Aurason SARAPHANCHOTIWITTAYA, Masahiko ABE,

Journal of Chemical Technology and Biotechnology, 74, 364-370 (1999).

4.Biotransformation of Steroidal Drugs Using Microorganisms screened from Variors Sites in Chiang

Mai. Thailand.

Jiradej MANOSROI, Masahiko ABE, Aranya MANOSROI, Bioresource Technology, 69 (1), 67-73

(1999).

5.Complex Formations between Sublimate Compounds and Deoxycholic Acid, and Effect of

Complexation on Sublimate Rate.

Shoko YOKOYAMA, Masahiko ABE, Material Technology, 17 (6), 265-269 (1999).

6.Efect of Arachidonic Acid on Base-Catalyzed Consecutive Degradation of Prostaglandin E2.

Shoko YOKOYAMA, Tomohiro KANAZAWA, Masahiko ABE, Material Technology, 17 (7), 283-290

(1999).

7.Micelｌar Surface Potentials (ψ) of Several Local Anesthetics, and Correlation Between ψand

Pharmacological Potency.

Shoko YOKOYAMA, Yoshihiro FUJINO, Masahiko ABE, Material Technology, 17 (7), 298-303

(1999).

8.Effect of Lysophosphatidylcholin on Acid-Catalyzed Dehydration (Degradaion) of Prostaglandin E1.

Shoko YOKOYAMA, Miki NAKANO, Tadahiro TAKEDA, Masahiko ABE, Material Technology, 17 (8),

342-349 (1999).

9.Comparison of Antioxidant Activity of Extract from Seeds of White Peppar (Piper nigrum,Linn) to

Commercial Antioxidants in 2% Hydroquinone Cream.

Aranya MANOSROI, Masahiko ABE, Jiradej MANOSROI, J.Cosmet.Sci., 50, 221-229 (1999).

10.Effects of Intermolecular Double Bonds on Micellar Surface Potential and Surface Charge

Density of lcosapolyenoic Acids.

Shoko YOKOYAMA, Yoshihiro FUJINO, Tadahiro TAKEDA, Masahiko ABE, Journal of Japan Oil

Chemists, Society, 48 (12), 1371-1376 (1999).

11.Preparation and Physicochemical Properties of New Crystalline Complexes Composed of Fatty

Acids and Ethylenediamine.

Shoko YOKOYAMA, Yoshihiro ABE, Masahiko ABE, Material Technology, 18 (2), 48-52 (2000).

12.Mode Analysis of Binding of Fatty Acid Molecules to Mammalian DNA Polymerases.

Yoshiyuki MIZUSHIMA, Masanobu SAGISAKA, Hideki SAKAI, Masahiko ABE, Kengo SAKAGUCHI,

Biochim Biophys.Acta, 1486, 211-218 (2000).

13.Preparation and Physicohemical Properties of New Crystalline Complexes Composed of Fatty

Acids and Ethylenediamine.

Shoko YOKOYAMA, Yoshihiro ABE, Masahiko ABE, Material Technology, 18 (2), 48-52 (2000).

14.Effect of Ganglioside GM1 Micelles on Autoxidation of Aqueous Solution of Epinephrine

Hydrochloride.

Shoko YOKOYAMA, Tadashi TAKEDA, Masahiko ABE, Material Technology, 18 (5), 164-170 (2000).

15.Surface Active Properties of Aqueous Solution of Diphenylpyraline Hydrochloride in the Presence

of Procaine Hydrochloride.

Shoko YOKOYAMA, Takayoshi SUGA, Tomohiro IMURA, Masahiko ABE, Material Technology,

18, 62-65 (2000).

16.Inhibition Effects of Gangliosides GM1, GD1a, and GT1b on Base-Catalyzed Isomerization of

Prostaglandin A2.

Shoko YOKOYAMA, Tadahiro TAKEDA, Masahiko ABE, Colloids and Surfaces B: Biointerfaces,

20, 361-368 (2001).

17.Liquid Crystalline Behavior of α-Substituted Oligothiophenes.

Takashi YAMADA, Reiko AZUMI, Hiroaki TACHIBANA, Hideki SAKAIi, Masahiko ABE,

Gunther GOTZ, Peter BAUERLE, Mutsuyoshi MATSUMOTO, Chemistry Letters, 1022-1023 (2001).

18.Conformational Change of Ganglioside GM1 with Surface Pressure, Related to Signal

Transduction?

Shoko YOKOYAMA, Tadahiro TAKEDA, Yumikko OHTA, Tomohiro IMURA, Aritomo YAMAGUHI,

Hideki SAKAI, Masahiko ABE, Journal of Oleo Science, 50 (11), 917-920 (2001).

19.Lipid Peroxidation and the Antioxidant Effect of 3, 5, 7 , 4'-Tetrahydroxy-2'-Methoxyflvone, Direct

Observaation by Atomic Force Microcopy.

Shoko YOKOYAMA, Tadahiro TAKEDA, Yumiko OHTA, Park Sung HEE, Takashi NISHIKAWA,

Masahiko ABE, Journal of Oleo Science, 51 (1), 63-67 (2002).

20.Membrane Properties of Mixed Dipalmitoylphospahatidylglycerol/Ganglioside GM3 Liposomes in

the Presence of Bovine Serum Albumin.

Shoko YOKOYAMA, Tadahiro TAKEDA, Tadashi TSUNODA, Yumiko OHTA, Tomohiro IMURA,

Masahiko ABE, Colloids and Surfaces B: Biointerfaces, 27, 141-146 (2002).

21.Perparation of ganglioside GM3 liposomes and their membrane properties.

Soko YOKOYAMA, Tadahiro TAKEDA, Masahiko ABE, Colloids and Surfaces B: Biointerfaces, 27,

181-187 (2002).

22.Localization of Mitogen-Active Oligosaccharide in Ganglioside GM3-Phospholipid Monolayers.

Shoko YOKOYAMA, Noriyasu HADA, Tadahiro TAKEDA, Yumiko OHTA, Tomohiro IMURA,

Masahiko ABE, Mateial Technology, 21, 3-6 (2003).

�]�T. Natural Surface Active Substances and Liposomes.

1. Interactions between L--Phosphatidylcholines and Water Molecules.

K. OGINO, M. GOTO, M. ABE, J. Jpn. Oil Chem. Soc., 37 (8), 640-647 (1988). (in Japanese)

2. Interactions between L--phosphatidylcholines and Water Molecules. II.

-The Structure of Interlamella Water and Membrane Property-.

M. ABE, M. GOTO, K. OGINO, J. Jpn Oil Chem. Soc., 38 (6), 506-515 (1989). (in Japanese)

3. Monomolecular Characteristics of Polyunsaturated Fatty Acids at the Air/Water Interface.

T. FUNADA, Y. TANAKA, J. HIRANO, E. MIZUGUCHI, Y. Goto, M. ABE, K. OGINO,

J. Jpn Oil Chem. Soc., 38 (5), 432-433 (1989).

4. Interaction between L--Phosphatidylcholine and Water Molecules. III.

-The Structure of Interlamella Water and Membrane Microproperty-

M. ABE, M. GOTO, K. OGINO, J. Jpn Oil Chem. Soc., 39 (5), 351-356 (1990). (in Japanese)

5. Surface Chemical Properties of Unsaturated Fatty Acids.

K. OGINO, M. ABE, Y. GOTO, T. FUNADA, Y. TANAKA, J. HIRANO, J. Jpn. Oil

Chem. Soc., 39 (6), 398-404 (1990). (in Japanese)

6. Interactions between L--Diphosphatidylglycerol Sodium Salts and Water Molecules.

M. ABE, S. HASEGAWA, K. OGINO, Y. NAKANO, N. TSUBAKI, J. Jpn. Oil

Chem. Soc., 44 (2), 134-139 (1995). (in Japanese)

Bilayers (Liposomes).

7. Molecular Interaction Between Phospholipid and Nonionic Surfactants in a Lipid Bilayer.

M. ABE, T. HIRAMATSU, H. UCHIYAMA, H. YAMAUCHI, K. OGINO, J. Jpn. Oil Chem. Soc.,

41 (2), 136-141 (1992). (in Japanese)

8. Molecular Interactions between Phospholipid and Lipophilic Substances in a Lipid Bilayer.

M. ABE, Y. TAKAO, T. YAMAMOTO, K. O. KWON, H. YAMAUCHI, K. OGINO,

J. Jpn. Oil Chem. Soc., 41 (2), 404-409 (1992). (in Japanese)

9. Phospholipid Liposome Fusion by a Fluorescent Probe Method.

K. O. KWON, M. ABE, M. J. KIM, K. OGINO, J. Jpn. Oil Chem. Soc., 41 (6), 501-506 (1992).

(in Japanese)

10. Molecular Interactions between Saturated and Unsaturated Phospholipids in a

Monomolecular and a Bilayer.

N. TSUBAKI, Y. NAKANO, Y. GOTO, M. ABE, K. OGINO, J. Jpn. Oil Chem. Soc., 41 (7), 551-557

(1992). (in Japanese)

11. Molecular Interactions between Lipid and Some Steroids in a Monolayer and a Bilayer.

H. YAMAUCHI, Y. TAKAO, M. ABE, K. OGINO, Langmuir, 9 (1), 300-304 (1993).

12. Calcium Ion Adsorption on Phospholipid Bilayers -Theoretical Interpretation-

K. O. KWON, M. ABE, K. OGINO, M. J. KIM, H. OHSHIMA, J. Jpn. Oil Chem.

Soc., 43 (1), 23-30 (1994).

13. A New Thermo-Sensitive Fatty Acid Complex: the Mechanism and its Applicability

to a Drug Delivery System.

S. YOKOYAMA, M. SUNOHARA, T. FUJIE, M. HASEGAWA, M. ABE, Chemistry Letters, 445-448

(1994).

14. Thermotropic Behaviors of Phospholipid Bilayer interacting with Metal Ions.

K. O. KWON, T. ISHINOMORI, M. ABE, M. J. KIM, K. OGINO, Langmuir, 10 (5), 1415-1420 (1994).

15. Effects of Divalent Metal Ions on Hydration of Phospholipid Molecules -DPPG,

DPPC/Ca2+, Mg2+, Ba2+ Systems-.

K. O. KWON, M. ABE, T. ISHINOMORI, K. OGINO, J. Jpn. Oil Chem. Soc., 45 (5), 403-408 (1994).

(in Japanese)

16. Effects of Calcium Ions on Phospholipid Aggregates at Subzero Temperatures.

K. O. KWON, M. ABE, K. OGINO, M. J. KIM, H. OHSHIMA, Colloids and Surfaces B: Biointerfaces,

3, 25-30 (1994).

17. Molecular Interactions between Phospholipid and Sphingoglycolipids in a Lipid Bilayer.

A. SEKIGUCHI, K. OGINO, H. YAMAUCHI, M. ABE, J. Jpn. Oil Chem. Soc.,

44 (3), 184-191 (1995). (in Japanese)

18. Molecular Interactions Between Lipids and Some Steroids in a Monolayer and bilayer(2).

Y. TAKAO, H. YAMAUCHI, J. MANOSROI, A. MANOSROI, M. ABE, Langmuir, 11 (3), 912-916

(1995).

19. Molecular Interactions between Phospholipid and Lipophilic Substances in a Lipid Bilayer. II.

Y. TAKAO, Y. NAKANO, K. OGINO, H. YAMAUCHI, M. ABE, Material Technology,

13 (4), 109-115 (1995). (in Japanese).

*20. Solubiliozation of Organic Solutes by Vesicles in Solubilization by Surfactant Aggregates.

M. ABE, H. YAMAUCHI, K. OGINO, Edited by J. F. SCAMEHORN, S. D. CHRISTIAN,

Marcel Dekker, pp. 333-363 (1995).

21. Molecular Interactions between Phospholipids and Glycolipids in a Lipid Bilayer.

A. SEKIGUCHI, A. MANOSROI, J. MANOSROI, H. YAMAUCHI, M. ABE,

Colloids and Surfaces B: Biointerfaces, 4 (5), 287-296 (1995).

22. Molecular Interactions between Phospholipids and Mangostin in a Lipid Bilayer.

A. YOSHIDA, A. MANOSROI, J. MANOSROI, H. YAMAUCHI, M. ABE, Colloids

and Surfaces B: Biointerfaces, 4 (6), 423-432 (1995).

23. Effects of Various Amino Acids on Membrane Characteristics of Liposomes.

T. ISHINOMORI, K. OGINO, H. SAKAI, T. FUNADA, M. MASUZAWA, M. ABE,

J. Jpn. Oil Chem. Soc., 44 (11), 985-990 (1995). (in Japanese)

24. Leakage of a Water-soluble Compound from Liposomes Dispersed in Highly Viscous Fluids.

H. SAKAI, Y. YOKOUCHI, M. KOBAYASHI, Y. FUJITA, H. YAMAUCHI, N. TSUBAKI, M. ABE,

Material Technology, 15 (4), 117-122 (1997). (in Japanese)

25. Molecular Interactions between Lipid Bilayers and a Water-soluble Polymer.

A. YOSHIDA, H. YAMAUCHI, H. SAKAI, N. KAWASHIMA, M. ABE,

Colloids and Surfaces B: Biointerfaces, 8 (6), 333-342 (1997).

26.Molecular Interactions Between Surface Modifies Lipid Bilayers and a Water- Soluble Polymer.

Ayumi YOSHIDA, Kaname HASHIZAKI, Mona EI-MAHDY, Hitoshi YAMAUCHI, Hideki

SAKAI, Shoko YOKOYAMA, Masahiko ABE, J. Jpn. Oil Chem.Soc., 47 (12), 1323-1329 (1998).

27.Effects of N-Carboxyacyl Phosphatidylethanolamine Derivatives on Physicochemical Properties

of Liposomes.

Hitoshi YAMAUCHI, Iwao SHIMAZAKI, Kaname HASHIZAKI, Hideki SAKAI, Shoko

YOKOYAMA, Masahiko ABE, Journal of Japan Oil Chemists, Society, 48 (4), 317-324 (1999).

28.Effects of Steroids and Vitamin D3 on the Permeability of Liposomal Bilayer Membranes.

Masahiko ABE, Kaname HASHIZAKI, Yumiko YOKOUCHI, YoshikoTAKAO, Hitoshi YAMAUCHI,

Kaname HASHIZAKI, Jiradej MANOSROI, Aranya MANOSROI, Hideki SAKAI,

Shoko YOKOYAMA, Hitoshi YAMAUCHI, Jounal of Japan Oil Chemists, Society, 48 (3),215-219 ,

(1999).

29.Efffect of Lipid with Covalently Attached Poly (Ethylene Glycol) on the Surface Properties of

Liposomal Bilayer Membranes.

Ayumi YOSHIDA, Kaname HASHIZAKI, Hitoshi YAMAUCHI, Hideki SAKAI, Shoko YOKOYAMA,

Masahiko ABE, Langmuir, 15 (7), 2333-2337 (1999).

30.Effects of PEG Chain Length of Phospholipid with Covalently Attached Poly (Ethylene Glycol)

(PEG) on Macroscopic States of Liposomes.

Kaname HAHIZAKI, Chika ITHO, Hideki SAKAI, Shoko YOKOYAMA, Hiroyuki TAGUCHI,

Yoshihiro SAITO, Naotake OGAWA, Masahiko ABE, Journal of Japan Oil Chemists, Society,

48 (9), 871-876 (1999).

31.Freeze-Fracture Electron Micrographs of Liposomes Containing Phospholipid with Covalency

Attached poly (ethylene　glycol）.

Kaname HASHIZAKI, Chika ITOH, Hideki SAKAI, Shoko YOKOYAMA, Hiroyuki TAGUCHI,

Yoshihiro SAITO, Naotake OGAWA, Masahiko ABE, Journal of Japan Oil Chemists, Society,

48 (9), 923-925 (1999).

32. Preparation and membrane characteristic of liposomes having ceramide 3.

Abe, Masahiko; Sakai, Hideki; Imura, Tomohiro.

Fragrance Journal, 27 (10), 58-64 (1999). (in Japanese)

33.Freeze-Fracture Electron Microscopic and Calorimeteric Studies on Microscopic States of

Surface-Modified Liposomes with Poly　(Ethylene Glycol)　Chains.

Kaname HASHIZAKIi, Chika ITOH, Hideki SAKAI, Shoko YOKOYAMA, Hiroyuki TAGUCHI,

Yoshihiro SAITO, Naotake OGAWA, Masahiko ABE, Colloids and Surfaces B:Biointerfaces,

17 (4), 275-282 (2000).

34.Atomic Force Microscopic Study on the Surface Properties of Phospholipid Monolayers

Containing Ceramide 3.

Tomohiro IMURA. Hideki SAKAI. Hitoshi YAMAUCHI. Kozo KOZAWA. Shoko YOKOYAMA,

Masahiko ABE, Colloids and Surfaces B:Biointerfaces, 19 (1), 81-87 (2000).

35.Domain Formations and Phase Separation in the Mixed Phosphatidylcholine/Ceramide 3

Monolayers and Bilayers.

Tomohiro IMURA, Hideki SAKAI,Hitoshi YAMAUCHI, Kozo KOZAWA, Chihiro KAISE,

Shoko YKOYAMA, Masahiko ABE, Jorunal of Japan Oil Chemists, Society, 49 (4), 373-377 (2000).

36.Effects of Lysozyme and Bovine Serum Albumin on Membrane Characteristics of Dipalmitoyl

phosphatidylcerol Liposomes.

Tadasi TSUNODA, Tomohiro IMURA, Makiko KADOTA, Hitoshi YAMAUCHI, Kyung OK KWON,

Shoko YOKOYAMA, Hideki SAKAI, Masahiko ABE, Colloids and Surfaces B:Biointrfaces, 20,

155-163 (2001).

37.Preparation of Liposomes Containing Ceramide 3 and Their Membrane Characterteristics.

Tomohiro IMURA, Hideki SAKAI, Hitoshi YAMAUCHI, Chihiro KAISE, Kozo KOZAWA,

Shoko YOKOYAMA, Masahiko ABE, Colloids and Surfaces B:Biointrfaces, 20, 1-8 (2001).

38.Effect of Adsorption of Bovine Serum Albumin on Liposomal Membrane Characteristics.

Yumiko YOKOUCHI, Tadashi TSUNODA, Tomohiro IMURA, Hitoshi YAMAUHI, Shoko YOKOYAMA,

Hideki SAKAI, Masahiko ABE, Colloids and Surfaces B:Biointrfaces, 20, 95-103 (2001).

39.Development of a New Preparation Method of Liposomes Using Superctitical Carbon Dioxide.

Katsuhito OHTAKE, Tomohiro IMURA, Hideki SAKAI, Masahiko ABE, Langmuir, 17 (3),3898-3901

(2001).

40.Soｌubilization of Oil-Soluble Meｄicines by Liposome with Deep Sea Water.

Chihiro KAISE, Hideki SAKAI, Aritomo YAMAGUCHI, Shoko YOKOYAMA, Teruhisa KANEKO,

Masahiko ABE, Journal of Oleo Science, 51 (2), 145-149 (2002).

41.New Apprication of supercritical carbon dioxide to bio-nanomaterial preparation - Establishment

of novel liposome preparation method -.

K.OTAKE, T.IMURA, M.ABE, Reviews and Topics on Surface Science & Technology Avant-garde,

Vol.40, No. 10 pp.368-381 (2002). (in Japanese)

42.Development of Continuous Batch System for Mass Production of Liposomes.

Tomohiro IMURA, Toshihiro GOTO, Satoshi YODA, Katsuhito OTAKE, Hitoshi TAKEBAYASI,

Masahiko YOKOSUKA, Hideki SAKAI, Masahiko ABE, Material Technology, 21, 30-35 (2003).

43.Preparation and Physicochemical Properties of Various Soybean Lecithin Liposomes Using

Supercritical Reverse Phase Evaporation Method.

Tomohiro IMURA, Katsuto OTAKE, Satoru HASHIMOTO, Toshihiro GOTOH, Makoto YUASA, Shoko

YOKOYAMA, Hideki SAKAI, James F. RATHMAN, Masahiko ABE, Colloids and Surfaces

B:Biointerfaces, 27 (23), 133-140 (2003).

44.Control of Physicochemical Properties of Liposomes Using a Supercritical Reverse Phase

Evaporation Method.

Tomohiro IMURA, Toshihiro GOTO, Katsuto OTAKE, Satoshi YODA, Yoshihiro TAKEBAYASI,

Shoko YOKOYAMA, Hitoshi TAKEBAYASHI, Hideki SAKAI, Makoto YUASA, Masahiko ABE,

langmuir, 19 (6), 2021-2025 (2003).

45.Effects of Poly(ethylene glycol)(PEG)Chain Length of PEG-Lipid on the Permeability of

Liposomal Bilayer Membranes.

Kaname HASHIZAKI, Hiroyuki TAGUCHI, Chika ITOH, Hideki SAKAI, Masahiko ABE,

Chemical and Pharmaceutica l Bulletin, 51 (7), 815-820 (2003).

�]�U. Fine Particle Preparations.

1.Preparation of Ultrafine Titanium Dioxide Particles Using Hydrolysis and Condensation Reactions

in the Inner Aqueous Phase of Reversed Micelles: Effect of Alcohol Addition.

Hideki SAKAI, Hajime KAWAHARA, Masuo SHIMAZAKI, Masahiko ABE, Langmuir, 14 (8), 2208-2212

(1998).

2.Effect of Surface Properties of Titanium Dioxide Particles on the Photocatalytic Oxidation of

Phenol.

A.NAGASAKI, H.SAKAI, M.SHIMAZAKI, T.KAKIHARA, T.KOHNO. N.MOMOZAWA, M.ABE,

Journal of the Japan Society of Colour Material, Vol.72, No.11, pp.665-673 (1999). (in Japanese)

3.The Effect of Film Thickness and Deposited Particle Size on the Photoelectrochemical Properties

of TiO2 Particulate Films.

M.SHIMAZAKI, H.KAWAHARA, T.KOHNO, N.MOMOZAWA, H.SAKAI, M.ABE,

The Japan Society of Colour Material, 72 (12), 726-732 (1999). (in Japanese)

4.Photocatalytic Activity of TiO2 Particulate Films Prepared by Depositing TiO2 Particles with

Various Sizes.

Eiichi KOZAWA, Hideki SAKAI, Teruyoshi HIRANO, Tohru KOHNO, Toshiyuki KAKIHARA,

Nobuyuki MOMOZAWA, Masahiko ABE, Journal of Microen capsulation, 18 (1), 29-40 (2001).

�]�V. Non Aqueous System.

1. Thermal Decomposition and Thermal Oxidation of Nonionic Surfactant.

K. OGINO, M. ABE, S. NOMURA, Nippon Kagaku Kaishi, 1979 (1), 106-110 (1979). (in Japanese)

2. Thermal Behavior of Anionic Surfactants.

K. OGINO, M. ABE, H. DOBASHI, Nippon Kagaku Kaishi, 1979 (10), 1355-1358 (in Japanese)

�]�W. Application of Wetting.

1. Study on Wetting. I. -The Contact Angle of an Oil Droplet on Aqueous Solution of

Nonionic Surfactant- .

K. OGINO, M. ABE, H. SAKATA, J. Jpn. Colour Material, 57 (2), 56-61 (1984). (in Japanese)

2. Effect of the Wettability of Polymer Filters on Oil Droplet Formation.

K. OGINO, H. OHKI, M. ABE, Chemistry Letters, 1987 (11), 2143-2146 (1987).

3. The Effect of the Wettability of the Injection Nozzle on the Size of Oil Drops in Water.

K. OGINO, H. OHKI, M. ABE, J. HIRANO, T. FUNADA, Bull. Chem. Soc. Jpn.,

61 (8), 2937-2942 (1988).

4. Spontaneous Breaking of Microemulsions by Surface-Modified Ion Exchange Resins.

M. ABE, H. OHKI, K. KUWABARA, W. AGUI, K. OGINO, J. Colloid Interface Sci.,

135 (2), 598-600 (1990).

5. Flotation Separation of Microemulsion with Surface-improved Ion Exchange Resins.

M. ABE, H. OHKI, K. KUWABARA, W. AGUI, K. OGINO, Jpn. Res. Inst. Material Tech.,

9 (4), 127-134 (1991). (in Japanese)

*6. Application of Wetting I (Preparation of Ultra Fine Particles)

M. ABE, Boundary, 9 (2), 42-45 (1993). (in Japanese)

*7. Application of Wetting II (Destruction of Ultra Fine Particles).

M. ABE, Boundary, 9 (9), 10-13 (1993). (in Japanese)

�]�X. Surface Improvement.

1. Surface Characteristics of Polystylene fluoroalkylated with Perfluoroalkanoyl Peroxides.

K. OGINO, M. ABE, K. MORIKAWA, H. SAWADA, M. NAKAYAMA, J. Jpn. Oil Chem. Soc.,

40 (12), 1115-1119 (1991). (in Japanese)

2. Surface Characteristics of Polystyrene Fluoroalkylated with Perfluoroalkanoyl Peroxides (2).

K. OGINO, M. ABE, K. MORIKAWA, H. SAWADA, T. MATSUMOTO, H. SHIMADA,

N. MATSUBAYASHI, A. NISHIJIMA, J. Jpn. Colour Material , 65 (8), 475-483 (1992). (in Japanese)

3. Surface Characteristics of Polystyrene Fluoroalkylated with Perfluoroalkanoyl Peroxides (3).

K. MORIKAWA, M. ABE, K. OGINO, H. SAWADA, T. MATSUMOTO, H. SHIMADA,

N. MATSUBAYASHI, A. NISHIJIMA, J. Jpn. Colour Material, 65 (10), 612-619 (1992) (in Japanese)

4. Surface Modification Method of Magnetite Particles by Use of Silane Coupling Agents

Having Fluorocarbon Chain.

N. YOSHINO, E. YAMAGUCHI, Y. YAMAMOTO, T. ITAGAKI, T. MATSUMOTO, H. SAWADA,

Y. KONDO, M. ABE, Nippon Kagaku Kaishi, (8), 995-997 (1993). (in Japanese)

5. Surface Improvement of Polymers.

M. ABE, Boundary, 9 (1), 10-13 (1993).

6. Preparation of Fluoro-Oil Based Magnetic Fluid by Use of Silane Coupling Agents

Having Fluorocarbon Chain.

N. YOSHINO, H. SASAKI, T. SETO, Y. KONDO, M. ABE, Material Technology, 12 (2/3), 47-50

(1994).

*7. Preparation of Water- and Oil-Repellent Polystyrene Film.

M. ABE, H. SAWADA, Surface Science, 16 (11), 710-714 (1995).

8. Surface Modification of Glass by Use of Silane Coupling Agents Containing

Fluorocarbon Chasin. -Modification by Mixed Silane Solution and Effect of Solvent Used-.

N. YOSHINO, K. SAKAMA, A. NAKASEKO, Y. KONDO, M. ABE, H. OGIWARA, S. OKADA,

T. IWAMOTO, T. TERANAKA, Material Technology, 13 (10), 304-308 (1995).

9. Synrhesis of Triethoxy-type Silane Coupling Agents Containing Fluorocarbon Chain

and Surface Modification of Glass.

N. YOSHINO, T. UDAGAWA, Y. KONDO, M. ABE, T. TERANAKA, J. Jpn. Oil Chem. Soc.,

46 (4), 405-411 (1997).

�]�Y. Interfacial Gelling Reaction.

1. Creation of Spherical Capsule Containing Water by a Non-aqueous Gel Reagent.

M. ABE, K. KUWABARA, K. OGINO, Material Technology, 9 (2), 54-61 (1992). (in Jpanese)

2. Relation between Gelation Formation of a Non-aqueous Gel Regent and Solubility

Parameters of Organic Solvents.

M. ABE, K. KUWABARA, K. OGINO, Material Technology, 10 (2), 48-57 (1992). (in Japanese)

3. Silica Porous Particle with a Cavity Prepared at the Oil/Water Interface.

M. ABE, S. HAKOTA, T. INADA, H. SAKAI, T. KAKIHARA, K. NISHIYAMA, J. Jpn. Colour Material,

68 (9), 542-550 (1995). (in Japanese)

4. Preparation of Porous Inorganic Oxides Capsules Utilizing the Interfacial Gelling

Reaction. II -Porous Alumina Hollow Capsule-

S. HAKOTA, H. SAKAI, T. KAKIHARA, K. NISHIYAMA, M. ABE, J. Jpn. Colour Material,

70 (2), 84-91 (1997). (in Japanese)

*5. M. ABE, H. SAKAI, Preparation of Prous Inorganic Oxides Capsules Utilizing the

Interfacial Gelling Reaction IN Gel Technology, Edietd by M. ABE, N. MURASE, T. AUZUKI,

Science Form, pp. 103-111 (1997).

6. Preparation of Prous Inorganic Oxides Capsules Utilizing the Interfacial Gelling Reaction.

III -Porous Titania Hollow Capsule-

H. SAKAI, T. KAWA, T. KAKIHARA, K. NISHIYAMA, M. ABE, J. Jpn. Colour Material,

70 (6), 378-385 (1997).

7. Preparation of Porous Metal Oxide Capsules with Interfacial Gelling Reaction Method.

Abe, Masahiko; Sakai, Hideki

in “Gel Technology”, Chapter 1, pp.103-111, Science Forum Publishing, (1997).

8.Preparation of Porous Inorganic Oxides Hollow Spheres Utilizing �W-Porous Nb2O5 Hollow

Sphere-.

T.KAWA, H.SAKAI, T.KAKIHARA, K. NISHIYAMA, M.ABE, Material Technology,

17 (5), 195-200 (1999).

9.Preparation of Porous Inorganic Oxides Hollow Spheress Utilizing the Interfacial Gelling Reaction.

V-Influence of Matel Alkoxide on Fomation of Hollow Spheres- .

T.KAKIHARA, T.KAWA, H.SAKAI, K.NISHIYAMA, M.ABE, Material Technology,

17 (9), 397-402 (1999). (in Japanese)

10.Preparation of Porous Inorganic Oxides Capsules by Utilizing the Interfacial Gelling Reaction.

�Y- Porous Ti-Nb Binary Oxide Capsule-.

T.KAKIHARA, T.KOURABA, H.SAKAI, K.NISHIYAMA, M.ABE, Material Technology,

17 (9), 403-409 (1999). (in Japanese)

11. Minicapsules Prepared with Interfacial Gelling Reaction Technique.

H.SAKAI, T.OHKUBO, T.KAKIHARA, M.ABE, in " Developument and Application of Micro/

Nano Capsele" Masumi KOISHI,Ed.,CMC Publishing, 149-157 (2003). (in Japanese)

�]�Z. Environmental Science.

1. Removal of Humic Substance Dissolved in Water. I.

K. OGINO, Y. KANEKO, T. MINOURA, W. AGUI, M. ABE, J. Colloid Interface Sci.,

121 (1), 161-169 (1988).

2. Removal of Humic Substance Dissolved in Water. II. -The Effect of the Inorganic

Compounds Dissolved in Water on the Adsorption Properties of Humic Substances-.

Y. KANEKO, W. AGUI, M. ABE, K. OGINO, J. Jpn. Oil Chem. Soc., 37 (2), 108-112 (1988).

(in Japanese)

3. Removal of Humic Substance Dissolved in Water. III. -The Effect of Salting-out on

the Adsorption Properties of Humic Substances.

Y.. KANEKO, Y. KAWAHARADA, W. AGUI, M. ABE, K. OGINO, J. Jpn. Oil Chem. Soc.,

37 (7), 531-534 (1988). (in Japanese)

4. Adsorption Characteristics of Organic Compounds Dissolved in Water on Surface-

Improved Activated Carbon Fibers.

Y. KANEKO, K. OGINO, M. ABE, Colloids and Surfaces, 37, 211-222 (1989).

*5. Removal of Humic Substances Dissolved in Water with Carbonaceous Adsorbents.

M. ABE, Y. KANEKO, K. OGINO, W. AGUI, The Science of the Total Environment,

117/118, 551-559 (1992).

6. Removal of Organic Solutes and Metal Ions by Means of a Colloid-Enhanced

Ultrafiltration Method.

M. ABE, Y. KONDO, Material Technology, 10 (9), 275-279 (1992). (in Japanese)

7. Removal of Humic Substances dissolved in Water with Some Carbonaceous Adsorbents.

M. MASUDA, M. ABE, W. AGUI, K. OGINO, Material Technology, 11 (2), 45-51 (1993).

(in Japanese)

*8. Colloid-Enhanced Ultrafiltration Method.

M. ABE, Adsorption News, 7 (2), 5-10 (1993). (in Japanese)

*9. Removal of Harmful Organic Compounds in the Source Water of Tap Water.

M. ABE, Chemical Industries, 45 (1), 30-35 (1994). (in Japanese)

10. Separation of Phenol in a Waste Water by Emulsion-type Liquid Membrane.

A. NUKITA, Y. KONDO, N. YOSHINO, M. ABE, Material Technology, 13 (3), 79-83 (1995).

(in Japanese)

11. Adsorption Characteristics of the Activated Carbons Surface-Improved by the

Organic Reactions.

T. INADA, K. OGINO, H. SAKAI, K. NISHIYAMA, T. WATANABE, M. ABE,

J. Jpn. Oil Chem. Soc., 44 (9), 658-665 (1995).

*12. Adsorption Removal of Organic Compounds and Its Related Substances by

Carbonaceous Materials.

M. ABE, Progress of Carbonaceous Science IX, CPC Kenkyukai, pp.78-86 (1997).

13.Filtering Organic Solutes from Water.

Masahiko ABE, Yukishige KONDO, CHEMTECH., 29 (3), 33-42 (1999).

14.Organic Compounds Removal by Vesicle-Enhanced Ultrafiltration.

Masahiko ABE, Yukishige KONDO, Eds. By J.F SCAMEHORN J.H.HARWELL ACS Symposium

Series 740,“Surfactant Based Separations:Recenｔ Asvances”ACA, Washington DC., Chapter13,

201-227 (1999).

�]�[. Ultra Pure Water.

1. Elucidation of Solution Properties and of Membrane Separation Mechanism of Organic

Pollutants in Water.

K. OGINO, M. ABE, Report for Grants in Aid for Scientific Research , Ministry of

Education, Japan (1987). (in Japanese)

2. Behavior of Bacteria and Pyrogen in Pure Water.

W. AGUI, Y. KURACHI, M. ABE, K. OGINO, J. Antibacteria and Antifungal Agents,

61 (7), 313-322 (1988).

3. Leachables from Strong Acid Cation Exchange Resin.

W. AGUI, M. TAKEUCHI, M. ABE, K. OGINO, J. Jpn. Oil Chem. Soc. 37 (12), 1114-1121 (1988).

4. Removal of Endotoxin in Water with Carbonaceous Adsorbent.

W. AGUI, Y. KURACHI, M. ABE, K. OGINO, J. Antibacteria and Antifungal Agents,

17 (3), 101-110 (1989).

5. Removal of Leachables from Strong Acid Cation Exchange Resins.

W. AGUI, M. TAKEUCHI, M. ABE, K. OGINO, J. Jpn Oil Chem. Soc., 38 (5), 405-414 (1989).

6. Removal of Humic Substance Dissolved in Water IV. -Removal of the Humic

Substance Fractions Dissolved in Water with Synthetic Carbonaceous Adsorbents-

W. Agui, M. ABE, K. Ogino, J. Jpn. Oil Chem. Soc., 38 (11), 929-937 (1989).

7. Fundamental Study on the Production of Ultrapure Water VI. -Leachables from Strong

Base Anion Exchange Resins.

W. AGUI, M. TAKEUCHI, M. ABE, K. OGINO, J. Jpn. Oil Chem. Soc., 39 (5), 307-313 (1990).

8. Fundamental Study on the Production of Ultrapure Water VII. -Removal of

Leachables from Strong Base Anion Exchange Resins.

W.. Agui, M. Takeuchi, M. ABE, K. Ogino, J. Jpn. Oil Chem. Soc., 39 (6), 385-392 (1990).

9. Fundamental Study on the Production of Ultrapure Water VIII.-Removal of

Leachables from Mixed-Bed Ion Exchange Resins. W.. AGUI, M. TAKEUCHI, M. ABE,

K. OGINO, Bull. Chem. Soc. Jpn., 63 (10), 2872-2876 (1990).

*10. Effects of Anionic Polyelectrolytes in Water on Kinetics of Ion Exchange Resins.

W. AGUI, M. KONDO, M. ABE, K. OGINO, New Developments in Ion Exchange

(Proceedings of International Conference on Ion Exchange, ICIE '91, Tokyo, Japan) ,

pp. 95-98, Kodansha Ltd. and Elsevier, (1991).

*11. Removal of Humic Substances Dissolved in Water with Reverse Osmosis Membrane.

W. AGUI, S. TAMURA, M. ABE, K. OGINO, The Science of the Total Environment,

117/118, 543-550 (1992).A1228

12. Effect of Humic Substances on Kinetics of Ion Exchange Rate.

W. AGUI, M. KONDO, M. ABE, K. OGINO, J. Ion Exchange, 3 (2), 61-68 (1992).

13. Removal of Humic Substances dissolved in Water with Carbonaceous Adsorbents.

M. MASUDA, M. ABE, K. OGINO, W. AGUI, Jpn. Res. Inst. Material Tech., 11 (2), 45-51 (1993).

14. Removal of Pyrogen from Water by a Reverse Osmosis Membrane.

W. AGUI, C. KAMATA, M. ABE, K. OGINO, J. Antibact. Antifung. Agents, 20 (12), 623-628 (1992).

15. Removal of Colloidal Silica from Water with Anion Exchange Resins.

W. AGUI, H. SHIMOYAMADA, M. ABE, K. OGINO, J. Ion Exchange, 4 (3), 176-183 (1994).

16. Gram-negative Bacteria Viable in Ultrapure Water: Identification of Bacteria Isolated

from Ultrapure Water and Effect of Temperature on Their Behavior.

N. MATSUDA, W. AGUI, T. TOUGOU, H. SAKAI, K. OGINO, M. ABE, Colloids

Colloids and Surfaces B: Biointerfaces, 5 (6), 279-289 (1996).

17. Disinfection of Pseudomonas Stutaeri Viable in Ultrapure Water with Ion Exchange Resins.

N. MATSUDA, W. AGUI, K. OGINO, N. KAWASHIMA, H. SAKAI, M. ABE,

Colloids and Surfaces B: Biointerfaces, 7, 91-100 (1996).

�]�\. Coal Dispersion Fuels.

1.Preparation of Low Ash COM (Coal Oil Mixture). -Study on Coal Oil Mixture (I) -.

K. SAITO, T. KAWASHINA, K. MEGURO, H. HONDA, A. KITAHARA, K. OGINO, M. ABE,

J. Fuel Soc. Jpn., 61 (657), 27-33 (1982) . ( in Japanese)

2. Effect of the Size Composition and Kinds of Coal on the Preparation of Low Ash

COM. -Study on Coal Oil Mixture (II)-.

K. OGINO, M. ABE, N. AKAHORI, A. KITAHARA, T. KAWASHINA, K.

Colloids J. Fuel Soc. Jpn., 61 (662), 411-420 (1982). (in Japanese)

3. Low Ash Coal Oil Mixtures.

K. SAITO, N. KAWASHINA, K. MEGURO, H. HONDA, A. KITAHARA, K. OGINO, M. ABE,

Energy Developments in Japan, 6, 119-134 (1983).

*4. Coal Dispersion Fuel.

M. ABE, K. OGINO, Solids Handling and Processing Industry, 16 (8), 25-34 (1984). (in Japanese)

5. Surface Chemistry of Methanol Extracts from Some Coals. -Study on Methanol Coal Mixture (I)-

K. OGINO, M. ABE, A. SHIMIZU, A. KITAHARA, K. MEGURO, H. HONDA, J. Fuel Soc. Jpn.,

64 (2), 115-124 (1985). (in Japanese)

6. Study on Wettability of Coal. -Study on Methanol Coal Mixture (II)-.

K. OGINO, S. KAWANO, M. ABE, H. HONDA, J. Fuel Soc. Jpn., 65 (5), 341-347 (1986).

( in Japanese)

7. Relationship between Swelling Ratio and Liquefaction Yield of Coals.

K. OGINO, M. ABE, S. KAWANO, K. SHIMIZU, H. HONDA, J. Fuel Soc. Jpn., 66 (9), 778-784,

(1987). (in Japanese)

8. Swelling of Coals by Various Solvents.

S. KAWANO, M. ABE, K. SHIMIZU, K. OGINO, H. HONDA, Nippon Kagaku Kaishi,

1987, 2301-2307 (1987). (in Japanese)

9. Fundamental Study of Pretreatment for Liquefaction of Coals.

K. OGINO, M. ABE, Report for Grants in Aid for Scientific ic Research, Ministry of Education.,

16,317-322, Japan (1987). (in Japanese)

�]�]. Lublication.

1.Graphite Solid-State Lubricant Generating Low Coefficient of Friction at High Temperatures.

K. NISHIYAMA, K. TAGUCHI, T. OHDAIRA, M. ABE, K. TASHIRO, T. SUZUKI,

Powder and Powder Metalogy, 41 (5), 613-616 (1994). (in Japanese)

2.Development of Drawing Tool.

M. ABE, Y. NOMIYAMA, K. MATSUKAWA, Y. ISHIJIMA, T. KASHIMURA, K. NISHIYAMA,

Material Technology, 12 (5), 161-165 (1994).

3. Evaluation of Drawing Characteristic by a Drawing Tool.

M. ABE, Y. NOMIYAMA, K. MATSUKAWA, Y. ISHIJIMA, T. KASHIMURA, K. NISHIYAMA,

Material Technology, 12 (6), 200-203 (1994).

*4. Lubrication Effects and Mechanism of Metal Film Forming.

K. NISHIYAMA, M. ABE, Material Technology, 13(1), 7-10 (1995).

�]�]�T. Composite Materils.

1.Room-Temperature Strength of Thermally Shocked TiB2, B4C, and B4C-50Wt% TiB2

Composite.

Katsuhiro NISHIYAMA, Ina MITRA, Nobuyuki MOMOZAWA, Takeru WATANABE, Masahiko ABE,

Rainer TELLE, Material Technology, 15 (8), 292-295 (1997).

2.Amination of Activated Carbon and Adsorption Characteristics of lts Aminated Surface.

Masahiko ABE, Keiko KAWASHIMA, Hideki SAKAI, Katsumi KANEKO, Langmuir, 16 (11),

5059-5063 (2000).

3.Preparation of Polymers by Admiceller Polymerization Method and Their Carbonization.

Masahiro OCHIAI, Hideki SAKAI, Aritomo YAMAGUCHI, Takashi YAMASHITA, Noboru

SUZUKI, Sadahito AOSHIMA, Masahiko ABE, Journal of Oleo Science, 1 (9), 683-692 (2001).

�]�]�U. Magnetic Properties.

1. Magnetic Properties of Ba2(Zn1-xMgx)2Fe12O22. I. -Single Crystal Growth-

N. MOMOZAWA, Y. TAGUCHI, H. SAKAI, M. ABE, K. NISHIYAMA, Material Technology,

14 (1), 16-19 (1996).

2. Magnetic Properties of Ba2(Zn1-xMgx)2Fe12O22. II. -Characterization of Single Crystals-

N. MOMOZAWA, Y. TAGUCHI, H. SAKAI, M. ABE, K. NISHIYAMA, Material Technology,

14 (2), 42-46 (1996).

3. Neutron Diffraction study of Pb-Substituted Hexagonal Ferrite (Ba0.2Pb0.8)2Zn2Fe12O22.

N. MOMOZAWA, Y. TAGUCHI, Y. NAGAO, K. NISHIYAMA, M. ABE, H. SAKAI, M. MATSUMOTO,

Y. YAMAGUCHI, Material Technology, 15 (1), 20-24 (1997).

4. Magnetic Properties of Ba2(Zn1-xMgx)2Fe12O22. III. -Magnetic Phase Diagram-

N. MOMOZAWA, Y. TAGUCHI, Y. NAGAO,K. NISHIYAMA, M. ABE, H. SAKAI, M. MATSUMOTO,

Y. YAMAGUCHI, Material Technology, 15 (2), 53-58 (1996).

5. Magnetic Properties of Ba2(Zn1-xMgx)2Fe12O22. IV. -Magnetic Structure-

Y. TAGUCHI, Y. NAGAO, H. SAKAI, M. ABE, K. NISHIYAMA, M. MATSUMOTO, N. MOMOZAWA,

Material Technology, 15 (5), 172-176 (1997).

6.Neutron Diffraction Study of Ba3Zn2Fe24O41.

S. UTSUMI, M. ORITA, K. NISHIYAMA, M. ABE, N. MOMOZAWA, Material Technolgy,18(1), 21-27

(2000).

7.Cant Magnetic Structure of (Ba1-xSrx)3Zn2Fe24O41(X＝0.641).

S.UTSUMI, M.ORITA, D.YOSHIBA, K.OZAWA, K.NISHIYAMA

M.ABE, N.MOMOZAWA, Material Technology,19 (4), 135-145 (2001). (in Japanese)

8.Cationic Distribution and Helimagnetic Structure of Ba2(Zn1-x Mgx)2Fe12O22 System as revealed

by Magnetization Measurements and Neutron Diffraction.

Nobuyuki MOMOZAWA, Yukinobu NAGAO, Shigenori UTSUMI, Masahiko ABE, Yasuo YAMAGUCHI,

Journal of Physical Society of Japan., 2724-2732 (2001).

9.Cant Magnetic Structure of Hexagonal Ferrite(Ba1-XSrx)3Zn2Fe24O41(x＝0.641).

S. UTUMI, M. ORITA, K. NISHIYAMA, M. ABE, N. MOMOZAWA, MaterialTechnology in press.,

(2003).

10.Magnetic Properties of

(Ba1-xSrx)2Zn2Fe12O22 as Revealed by Magnetization Measurements and Neutron Diffraction.

S.UTSUMI, D.YOSHIDA, H.SUGIHARA, H.NAKANISHI, M.ABE, N.MOMOZAWA, Material Technology,

21 (4), 145-150 (2003).

�]�]�V.Others.

Detergency.

1. Redeposition of Carbon Black onto Hydrophilic anqd/or Hydrophobic Fibers.

K. OGINO, T. MIYAZAKI, M. ABE, J. Jpn. Soc. Colour Material, 60 (3), 153-159 (1987). (in Japanese)

(in Japanese)

2. Effects of -Potential and Particle Size of Zeolite on Antiredeposition of Carbon Black.

T. MIYAZAKI, M. ABE, K. OGINO, J. Jpn. Soc. Colour Material, 61, 2-6 (1988). (in Japanese)

Catalysis.

3. Evaluation of Catalytic Functions of Nolybdenum Catalyst Using Model Test Reactions.

T. SATO, Y. YOSHIMURA, H. SHIMADA, N. MATSUBAYASHI, A. NISHIJIMA,

N. KATSURA, M. ABE, K. OGINO, J. Fuel Soc. Jpn., 69, 200-206 (1990). (in Japanese)

4. Structual Changes of Sulfied Nickel-Tungsten Catalysts during Oxidative

Regeneration.

N. MATSUBAYASHI, M. TAMAYAMA, H. SHIMADA, T. SATO, Y. YOSHIMURA,

Y. MORI, Y. KAWAMATA, M. ABE, K. OGINO, A. NISHIJIMA, Sekiyu Gakkaishi,

37 (6), 594-602 (1994). (in Japanese)

�]�]�W. Others.

1.Synthesis of triethoxy-type silane coupling agents containing fluorocarbon chain and surface

modification of glass.

Yoshino, Norio; Udagawa, Takuto; Kondo, Yukishige; Abe, Masahiko; Teranaka, Toshio.

Nihon Yukagakkaishi, 46 (4), 405-411 (1997). (in Japanese)

2.Development of Mist Cooling Elements for Heat Exchanger by Functionally Graded Processing.

M. SHIMAZAKI, H. TAKAHASHI, N. MOMOZAWA, K. NISHIYAMA, M. ABE, Material Technology,

16 (10), 387-394 ,(1998).

3.Effect of Unsteady Agitation of Imellers on Mass Transfer from Bubbles in an Unbaffled Aerated

Agitation Vessel.

Masanori YOSHIDA, Kazuaki YAMAGIWA, Akira OHKAWA, Masuo SHIMAZAKI, Masahiko ABE,

Material Technology, 16 (7), 305-315 (1998).

4.Torqre of Drive Shaft with Unsteadily Rotating lmpellers in an Unbaffled Aerated Agitation Vessel.

Masanori YOSHIDA, Kazuaki YAMAGIWA, Akira OHKAWA, Kenji TAKAHASHI, Masuo SHIMAZAKI,

Masahiko ABE, Material Technology, 17 (1),19-31 (1999).

5.Development of a novel cooling tower by using dry water mist as the cooling medium.

M.SHIMAZAKI, S.TEZURA, K.ITO, H.TAKAHASHI, H.SAKAI, K.NISHIYAMA, M.ABE,

Material Techology,17 (10), 460-467 (1999). (in Japanese)

6.A comparative Study of Mass Transfer Characteristics among Unsteady Bulk Flow Type Gas

Liquid Contactors.

Masanori YOSHIDA, Kazuaki YAMAGIWA, Akira OHKAWA, Masuo SHIMAZAKI, Masahiko ABE,

material Technology, 17 (10), 468-475 (1999).

7.Performance of Unbaffled Agrated Agitation Vessels Having Unsteadily Forward-Reverse Rotating

Impellers: Gas Hold-Up and Volumetric Mass Transfer Coefficient.

Masanori YOSHIDA, Akira ITO, Kazuaki YAMAGIWA, Akira OHKAWA, Masahiko ABE, Shuichi

TEZURA, Masuo SHIMAZAKI, Proceedings of the Seventh Asian Conference on Fluidized-Bed and

Three-Phase Recters, November 28-30.2000., Hamanako,Shizuoka,Japan,pp.737-442 (2000).

8.Adhesion Characteristics of Carbon Fibers Surface-modified with Amino Group.

K.KAWASHIMA, H.TAKAHASHI, M.SHIMAZAKI, T.KOHNO, H.SAKAI, K.NISHIYAMA,

M.ABE, The Carbon Society of Japan, 195, 336-340 (2000). (in Japanese)

9.Time-Resolved XAFS Studies for Dynamic Structural Change.

A.YAMAGUCHI, M.ABE, M.YUASA, Y.IWASAWA, Reviews and Topics on Surface Science &

Technology Avant-garde, 39 (6), 219-225 (2001). (in Japanese)

10.Hydrophobic Treatment of Potassium Titanate Whisker by a Surface Modification System Using

Spiral Flow.

S.NABESHIMA, M.YOKOSUKA, K.TAKEBAYASHI, K.HORII, A.YAMAGUCHI, H.SAKAI, M.ABE, The

Japan Society of Colour Material, 75 (3), 95-99 (2002).

11.Observation of Spin Transition in an Octahedrally Coordinated Manganese (�U）Compound.

Shin-ichi OHKOSHI, Hiroko TOKORO, Masayoshi UTSUNOMIYA, Mikihisa MIZUNO,

Masahiko ABE, Kazuhito HASHIMOTO, The Journal of Physical Chemistry B, 1-6, (10), 2423-2425

(2002).

12.Dispersion and Coating Film Characteristics of Graphite Particles Adsorbed with Polymers.

H.KUROKAWA, S.KAWANO, M.SHIRAHIGE, H.CHIYODA, H.SAKAI, M.ABE,

Material Technology, 20 (4), 165-172 (2002). (in Japanese)

13.Dispersion Polymerization of Vinyl Monomers in Supercritical Carbon Dioxide.

M.KOBAYASHI, K.MIZUGUCHI, H.SAKAI, M.ABE, K.OTAKE, The Japan Society of Colour Material,

75 (8), 371-377 (2002). (in Japanese)

14.Formation of Triangular Polymer Domains in Surfactant Films Adsorbed on Solid Substrate.

Hidemoto NAKAMURA, Hideki SAKAI, Sadahito AOSHIMA, Masahiko ABE, Journal of Oleo Science,

51 (12), 781-787 (2002).

15.Development and Applicability of a New Medialess Disperser.

M.ENOMURA, K.ARAI, M.YOKOSUKA, K.TAKEBAYASHI, M.YUASA, M.ABE,

Journal of the Japan Society of Colour Material, Vol. 75, No.12 pp586-591 (2002). (in Japanese)

16.Characterisitics of achange in molecular weight of DE-310 which is polymeric drug with storage

time.

M.TAKEUCHI, M.ASAI, T.TOMITSUKA, H.SAKAI, M.ABE, Material Technology, 20 (57), 242-247 ,

(2002). (in Japanese)

17.Preparation and Photocatalytic Activity of Tiania Particulate Film with Silica as Binder.

H.SHIBATA, H.SAKAI, P.RANGSUNVIGIT, T.HIRANO, M.ABE, Surface Coatings International

B:Coatings Transactions, 86,B2, 125-130 (2003).

18.The observation of two compensation temperatures in a cobalt-manganese hexacyanochromate.

Shin-ichi OHKOSHI, Toshiya HOZUMI, Masayoshi UTSUNOMIYA, Masahiko ABE, Kazuhito

HASHIMOTO, Physica B, 329-333, 691-692 (2003).

19.Addition effects of excipients on change in molecular weight of a novel polymeric

drug (DE-310) during lyophilization.

M.TAKEUCHI, M.ASAI, T.TOMITSUKA, H.SAKAI, M.ABE, Material Technology, 21 (4), 184-193 ,

(2003). (in Japanese)

PATENTS

1. Title of the Invention: Carbonaceous adsorbent for removal of pyrogen and method of

producing pure water using same Brazil (PI 8801524), Denmark (1814/88), Israel

(85835), Korea (3628/1988), Mexico (10935), Australia, New Zealand (224096), Thai

(006727), Taiwan (77102324), Finland (88 1383), Canada (562927), U. S. A.

(167239), EPC (CH, DE, FR, GB, IT, LI, NL; 88302589.2).

2. Title of the Invention: Carbonaceous adsorbent for removal of pyrogen Japan Patent.

3. Title of the Invention: Breaking Method for Microemulsion.