2018年 環境物質工学科 学術論文等

ᵐᵎᵏᵖ ࠰ᴾ ࿢ؾཋឋ߻ܖᅹᴾ

ܖᘐᛯ૨ሁᴾ

ⴭ

ⴭ  ᭩

1. Y. Takaguchi, T. Tajima, H. Miyake 㸭 Hydrogen-Evolving CNT-Photocatalysts for Effective Use of Solar Energy, In: N. Nakashima (eds) Nanocarbons for Energy Conversion: Supramolecular Approaches. Nanostructure Science and Technology 㸭 Springer, Cham㸭2018 ᖺ 8 ᭶

ཎⴭㄽᩥ㸦ᰝㄞ࠶ࡾ㸧

1. D. Yabumoto, M. Ota, Y. Sawai, S. Nishimoto, Y. Kameshima, M. Miyake, E. Fujii, K. Katsumata㸭Underwater Wettability of Oleic Acid on TiO2 Photocatalyst Surface㸭 Colloid Surf. A: Physicochem. Eng. Aspects, 548, 32-36㸭2018 ᖺ

2. J. Hsing, Y. Kameshima, S. Nishimoto, M. Miyake㸭Preparation of Carbon-modified N-TiO2/Montmorillonite Composite with High Photocatalytic Activity under Visible Light Radiation㸭J. Ceram. Soc. Japan, 126, 230-235㸭2018 ᖺ

3. M. Miyake, M. Iwami, M. Takeuchi, S. Nishimoto, Y. Kameshima㸭Electrochemical Performance of Ni0.8Cu0.2/Ce0.8Gd0.2O1.9 Cermet Anodes with Functionally Graded Structures for Intermediate-temperature Solid Oxide Fuel Cell Fueled with Syngas㸭J. Power Sources, 390, 181-185㸭2018 ᖺ

4. M. Yamagami, T. Tajima, K. Ishimoto, H. Miyake, H. Michiue, Y. Takaguchi㸭Physical Modification of Carbon Nanotubes with a Dendrimer Bearing Terminal Mercaptoundecahydrododecaborates (Na2B12H11S) 㸭 Heteroatom Chem., Published as Early View. DOI:10.1002/hc.21467㸭2018 ᖺ

5. T. Tajima, T. Tanaka, H. Miyake, I. Kim, C. Ohtsuki, Y. Takaguchi㸭Apatite Coating on Dendrimer-modified Backypaper and the Formation of Nanoapatite on MWCNTs 㸭 Polymer J. 50, 911-917. DOI:10.1038/s41428-018-0056-4㸭2018 ᖺ

6. T. Tajima, H. Goto, M. Nishi, T. Okubo, Y. Nishina, H. Miyake, Y. Takaguchi㸭A Facile Synthesis of a SnO2/Graphene Oxide Nano-Nano Composite and its Photoreactivity㸭 Materials Chemistry and Physics, 212, 149 ̽ 154. DOI:10.1016/j.matchemphys.2018.03.046㸭2018 ᖺ

7. N. Murakami, H. Miyake, T. Tajima, K. Nishikawa, R. Hirayama, Y. Takaguchi㸭 Enhanced Photosensitized Hydrogen Production by Encapsulation of Ferrocenyl Dyes into Single-Walled Carbon Nanotubes 㸭 J. Am. Chem. Soc., 140, 3821-3824. DOI:10.1021/jacs.7b12845㸭2018 ᖺ

8. K. Ishimoto, T. Tajima, H. Miyake, M. Yamagami, W. Kurashige, Y. Negishi, Y. Takaguchi 㸭 Photo-induced H2 Evolution from Water via the Dissociation of Excitons in Water-Dispersible Single-Walled Carbon Nanotube Sensitizers㸭Chem. Commun., 54, 393-396. DOI:10.1039/C7CC07194A㸭2018 ᖺ

9. T. Shimanouchi, R. Mano, Y. Yoshioka, A. Fukuda, Y. Kimura㸭Kinetic pH Titration to Predect the Acid and Hydrothermal Conditions for the Hydrolysis of Disaccharaides: Use of a Microcapillary System㸭Journal of Chemistry, in press㸭2018 ᖺ

10. C. Mizuguchi, M. Nakamura, N. Kurimitsu, T. Ohgita, K. Nishitsuji, T. Baba, A. Shigenaga, T. Shimanouchi, K. Okuhira, A. Otake, H. Saito㸭Effect of Phosphatidylserine and Cholesterol on Membrane-mediated Fibril Formation by the N-terminal Amyloidogenic Fragment of Apolipoprotein A-I㸭Scientific Report, 8, Article number 5497㸭2018 ᖺ 11. H. Kawasaki, T. Shimanouchi, K. Takahashi, Y. Kimura㸭Effect of Controlled Nucleation

of Ice Crystals on the Primary Drying Stage During Lyophilization㸭Chemical and Pharmaceutical Bulletin, 66, 1122-1130㸭2018 ᖺ

12. H. Kawasaki, T. Shimanouchi, M. Yamamoto, K. Takahashi, Y. Kimura 㸭 Scale-up Procedure for Primary Drying Process in Lyophilizer by Using the Vial Heat Transfer and the Drying Resistance㸭Chemical and Pharmaceutical Bulletin, 66, 1048-1056㸭2018 ᖺ 13. K. Hayashi, Y. Mitsuyoshi, T. Kamei, T. Shimanouchi, K. Suga, Y. Okamoto, H. Nakamura,

H. Umakoshi㸭Design of Pyrene-Fatty Acid Conjugates for Real-Time Monitoring of Drug Delivery and Controllability of Drug Release㸭ACS Omega, 3(3), 3572-3580㸭2018 ᖺ

14. T. Shimanouchi, Y. Kitagawa, Y. Kimura㸭Application of liposome membrane as the reaction field: a case study using the Horner-Wadsworth-Emmons reaction㸭Journal of Bioscience and Bioengineering, accepted㸭2018 ᖺ

15. T. Matsubara, Md. A. Uddin, Y. Kato, T. Kawanishi, Y. Hayashi 㸭Chemical Treatment of Copper and Aluminum Derived from Waste Crystalline Silicon Solar Cell Modules by Mixed Acids of HNO3and HCl㸭J. Sustainable Metallurgy, 4, 378-387.㸭2018 ᖺ

16. S. Sumitomo, M. Ueta, Md. A. Uddin, Y. Kato㸭Comparision of Oil-in-water Emulsion between Ultrasonic Irradiation and Mechanical Stirring 㸭 Chemical Engineering & Technology, in press㸭2018 ᖺ

17. A㸬M. Hapipi㸪H㸬Suda㸪Md㸬A. Uddin, Y. Kato㸭Dechlorination of Polyvinyl Chloride under Superheated Steam with Catalysts and Adsorbents㸭Energy & Fuels, 32, 7792-7799. 㸭2018 ᖺ

18. S. Sumitomo, H. Koizumi, Md. A. Uddin, Y. Kato㸭Comparison of Dispersion Behavior of Agglomerated Particles in Liquid between Ultrasonic Irradiation and Mechanical Stirring 㸭Ultrasonics-sonochemistry, 40, 822-831.㸭2018 ᖺ

Behavior of Fine Particles in Liquid among Various Mixing Operations㸭ISIJ Int., 58, 1-9. 㸭2018 ᖺ

20. A. M. Hapipi, Md. A. Uddin, Y. Kato㸭Carbonization of Sugarcane Bagasse and Heat Transfer Property by Pyrolysis in Superheated Steam and Nitrogen Atmosphere㸭The Japan Institute of Energy, 97, 31-39.㸭2018 ᖺ

21. R. Tanaka, Md. A. Uddin, Y. Kato㸭Flow Characteristics Related to Liquid/Liquid Mixing Pattern in an Impeller-stirred Vessel㸭ISIJ Int., 58, 620-626.㸭2018 ᖺ

22. M. Demiya, Md. A. Uddin, Y. Kato㸭Enhancement in Trichloroetylene Dechlorination by Mixed Particles of Iron-iron Disulfide or Iron-iron Sulfide㸭J. Environmental chemical Engineering, 6, 1020-1026.㸭2018 ᖺ

23. ᯇ⏣኱࿴, ⏣୰ㄹ, ዟ㔝㈗኱, Md. A. Uddin, ຍ⸨჆ⱥ, 㧗ᶫඞ๎, ᮌ᭮ⱥ⁠㸭㛤Ỉ ㊰ ὶ ࢀ ࢆ ⏝ ࠸ ࡓ 〇 㗰 ࢫ ࣛ ࢢ ࠿ ࡽ ᾏ Ỉ ୰ ࡬ ࡢ ࢔ ࣝ ࢝ ࣜ ⁐ ฟ ᣲ ື ࡢ 㛗 ᫬ 㛫 ᥎⛣ Long-term Alkali Elution Behavior from Steelmaking Slag into Seawater by an Open Channel Vessel.㸭㕲࡜㗰, in press㸭2018 ᖺ

ཎ

ཎⴭㄽᩥ㸦ᰝㄞ࡞ࡋ㸧

1. 㧗ཱྀ㇏㸭ኴ㝧ගࢆ࣮࢝࣎ࣥࢼࣀࢳ࣮ࣗࣈ࡛ᤕ㞟ࡍࡿí࣮࢝࣎ࣥࢼࣀࢳ࣮ࣗࣈࢆ⏝࠸ ࡓኴ㝧㟁ụ࡜ගゐ፹㸭໬Ꮫ, 73, 64-65.㸭2018 ᖺ

2. T. Shimanouchi, M. Iwamura, S. Deguchi, S. Fukuma, Y. Kimura 㸭 Effect of Entanglements in Lipid- and Polymer-Planar Membranes on Nucleation of Amyloid Eand Its Fibril Growth Behavior㸭Proceedings of 18AIChE, 444e㸭2018 ᖺ

3. S. Fukuma, T. Shimanouchi, Y. Kimura㸭Effect of Membrane Fluctuation on Protein Adsorption to Lipid Membranes㸭Proceedings of 18AIChE, 444g㸭2018 ᖺ

⥲ㄝ➼

1. すᮏಇ௓㸪டᓥḠ୍㸪୕Ꮿ㏻༤㸭෌฼⏝࡛ࡁࡿ㓟໬ࢳࢱࣥ⣔ἜỈศ㞳ࣇ࢕ࣝࢱ࣮㸭 ຍᕤᢏ⾡, 53, 149-152㸭⧄⥔♫㸭2018 ᖺ

2. T. Tajima, Y. Takaguchi㸭Development of Carbon Nanotube Photocatalysts for Effective Use of Solar Energy㸭Journal of Japan Solar Energy Society, 2018, 44(1),41-47.㸭2018 ᖺ 3. ᕝᓮⱥ඾㸪ᓥෆᑑᚨ㸪ᮌᮧᖾᩗ㸭෾⤖ᕤ⛬ไᚚ࡟ᇶ࡙ࡃ෾⤖஝⇱࡜ PAT ᢏ⾡㸭ศ 㞳ᢏ⾡, 48(6)㸭ศ㞳ᢏ⾡఍㸭2018 ᖺ 4. ᓥෆᑑᚨ㸪⚟㛫᪩⣖㸪෠ኈ⏣೺ே㸪ᮌᮧᖾᩗ㸭ㄏ㟁ศගἲ࡟ࡼࡿ⭷⏺㠃ࡢᚤどⓗࢲ ࢖ࢼ࣑ࢡࢫゎᯒ㸭⾲㠃࡜┿✵, ཷ⌮㸭⾲㠃┿✵Ꮫ఍㸭2018 ᖺ 5. ᓥෆᑑᚨ㸭ࢯࣇࢺ⏺㠃ศᯒᢏ⾡ࡢ᪂₻ὶ㸭⾲㠃࡜┿✵, ཷ⌮㸭⾲㠃┿✵Ꮫ఍㸭 2018 ᖺ ᣍᚅㅮ₇ࡲࡓࡣᇶㄪㅮ₇ 1. 㞴Ἴᚨ㑻㸭ㅮ⩏㸯㸸ࢭ࣑ࣛࢵࢡࢫࡢᴫㄽ㸭᪥ᮏࢭ࣑ࣛࢵࢡࢫ༠఍୰ᅜᅄᅜᨭ㒊࣭ࢭ

࣑ࣛࢵࢡࢫࡢᇶ♏Ꮫၥ◊ಟ఍㸭ᒸᒣ㸭2018 ᖺ 11 ᭶

2. ⣚㔝Ᏻᙪ㸭ㅮ⩏㸱㸸࢞ࣛࢫࡢ≉ᛶ㸭᪥ᮏࢭ࣑ࣛࢵࢡࢫ༠఍୰ᅜᅄᅜᨭ㒊࣭ࢭ࣑ࣛࢵ ࢡࢫࡢᇶ♏Ꮫၥ◊ಟ఍㸭ᒸᒣ㸭2018 ᖺ 11 ᭶

3. Y. Benino, I. Matsui, S. Sakida, T. Nanba㸭Structural Anisotropy of MD-simulated Calcium Phosphate Glasses Induced by Uniaxial Deformation㸭The 35th International Korea-Japan Seminar on Ceramics㸭㡑ᅜ࣭Ụ㝠㸭2018 ᖺ 11 ᭶

4. Y. Takaguchi㸭Molecular Design of Benzothiadiazole-Based Dyes for Working with Carbon Nanotube Photocatalysts 㸭 28th International Symposium on the Organic Chemistry of Sulfur (ISOCS-28)㸭Tokyo, Japan㸭2018 ᖺ 8 ᭶

5. T. Tajima, K. Kurniawan, Y. Kubo, H. Miyake, W. Kurashige, Y. Negishi, Y. Takaguchi㸭 Incorporating a TiOx Shell in Single-Walled Carbon Nanotube/Fullerodendron Coaxial Nanowires㸭International Congress on Pure & Applied Chemistry (ICPAC) 2018㸭Siem Reap, Cambodia㸭2018 ᖺ 3 ᭶

6. Y. Takaguchi, T. Izawa, R. Sagawa, T. Tajima, H. Miyake 㸭 Molecular Design of Benzothiadiazole-Based Dyes for Working with Carbon Nanotube Photocatalysts㸭14th Korea-Japan Symposium on Frontier Photoscience: Photochemistry, Solar Cells, and Photocatalysts㸭Gwangju, Korea㸭2018 ᖺ 11 ᭶

7. T. Tajima, Y. Takaguchi 㸭 Solid-state Fluorescence Behavior Induced by Disproportionation Reaction of 6,13-Dihydropentacene㸭14th Korea-Japan Symposium on Frontier Photoscience: Photochemistry, Solar Cells, and Photocatalysts㸭Gwangju, Korea 㸭2018 ᖺ 11 ᭶

8. ⏣ᔱᬛஅ㸭ኴ㝧ගࡢ᭷ຠά⏝ࢆྍ⬟࡜ࡍࡿ࣮࢝࣎ࣥࢼࣀࢳ࣮ࣗࣈගゐ፹㸭㏆⸨グ ᛕ㈈ᅋ㸭2018 ᖺ 1 ᭶

9. H. Atarashi 㸭 Morphology Control of High Performance Polymers Prepared from Cinnamic Acid Derivatives㸭Japan-Korea Joint Symposium on Polymer Science 2018㸭 Sapporo, Japan㸭2018 ᖺ 7 ᭶ 10. ᓥෆᑑᚨ㸭ࢱࣥࣃࢡ㉁-⬡㉁⭷㛫┦஫స⏝ࡢホ౯᪉ἲ࡜ࡑࡢᛂ⏝㸭ࢧࣥࢺ࣮ࣜ⏕࿨ ⛉Ꮫ㈈ᅋ㸭2018 ᖺ 2 ᭶ 11. ᓥෆᑑᚨ㸭࢔ࣝࢶࣁ࢖࣐࣮⑓ࡢデ᩿࣭἞⒪࡟ྥࡅࡓ᭱㏆ࡢὶࢀ㸭ᒸᒣ኱ᏛᕤᏛ㒊ྠ ❆఍࣭ㅮ₇఍㸭ᒸᒣᕷ㸭2018 ᖺ 6 ᭶ 12. ᓥෆᑑᚨ㸭ㄏ㟁ศගἲ࡟ࡼࡿ⭷⏺㠃ࡢᚤどⓗࢲ࢖ࢼ࣑ࢡࢫゎᯒ㸭⾲㠃┿✵Ꮫ఍Ꮫ ⾡ㅮ₇఍㸭⚄ᡞᅜ㝿఍㆟ሙ㸭2018 ᖺ 11 ᭶ 13. ᓥෆᑑᚨ㸭ᬗᯒࡢᇶ♏࡜ࡑࡢྲྀᢅ࠸㸭ᒸᒣᆅ༊໬ᏛᕤᏛ᠓ヰ఍㸭ࢼ࢖࢝࢖ሷᴗ㸭 2018 ᖺ 12 ᭶ 14. ᓥෆᑑᚨ㸭ㄏ㟁ศගἲ࡜ࣔࢹࣝ⏕య⭷ࡢὶయຊᏛⓗࣇ࣮࣒࣮ࣞ࣡ࢡ㸭⬡㉁⭷࡜ศ ගἲࢭ࣑ࢼ࣮㸭኱㜰኱Ꮫᇶ♏ᕤᏛ㒊㸭2018 ᖺ 12 ᭶ ◊ ◊✲ㅮ₇࣭Ⓨ⾲ 1. ᯇ஭㑳ஓ㸪ᓮ⏣┿୍㸪⣚㔝Ᏻᙪ㸪㞴Ἴᚨ㑻㸭ࣜࣥ㓟࢝ࣝࢩ࣒࢘⣔࢞ࣛࢫ࡟࠾ࡅࡿ␗ ᪉ᛶㄏ㉳㐣⛬ࡢศᏊືຊᏛᵓ㐀ࣔࢹࣝ໬㸭᪥ᮏࢭ࣑ࣛࢵࢡࢫ༠఍ࢭ࣑ࣛࢵࢡࢫᇶ

♏⛉Ꮫウㄽ఍㸭ࡘࡃࡤ㸭2018 ᖺ 1 ᭶

2. ᑠᯘᙬ⳹㸪ᓮ⏣┿୍㸪⣚㔝Ᏻᙪ㸪㞴Ἴᚨ㑻㸭ᅽ⦰ኚᙧࡉࡏࡓࣜࣥ㓟ሷ࢞ࣛࢫࡢ␗᪉ ᛶホ౯㸭᪥ᮏࢭ࣑ࣛࢵࢡࢫ༠఍ࢭ࣑ࣛࢵࢡࢫᇶ♏⛉Ꮫウㄽ఍㸭ࡘࡃࡤ㸭2018 ᖺ 1 ᭶

3. H. Fujisawa, S. Sakida, Y. Benino, T. Nanba㸭Effect of Basicity on the Dissolution Behavior of Constituent Elements in Municipal Waste Molten Slag 㸭 International Congress on Glass, Annual Meeting 2018㸭ᶓ὾㸭2018 ᖺ 9 ᭶

4. K. Fujimoto, S. Sakida, Y. Benino, T. Nanba㸭Basicity of Alkali Borate Glasses by using Various Evaluation Methods㸭International Congress on Glass, Annual Meeting 2018㸭ᶓ ὾㸭2018 ᖺ 9 ᭶

5. M. Watanabe, S. Sakida, Y. Benino, T. Nanba㸭Correlation between Basicity and Structure of Borate Glasses㸭International Congress on Glass, Annual Meeting 2018㸭ᶓ὾㸭2018 ᖺ 9 ᭶

6. F. Nakao, S. Sakida, Y. Benino, T. Nanba㸭Volatilization Behavior of Cesium at Melting Treatment of Soil㸭International Congress on Glass, Annual Meeting 2018㸭ᶓ὾㸭2018 ᖺ 9 ᭶

7. I. Matsui, Y. Benino, S. Sakida, T. Nanba㸭Molecular Dynamics Simulation of Anisotropic Glasses in Calcium Phosphate System㸭International Congress on Glass, Annual Meeting 2018㸭ᶓ὾㸭2018 ᖺ 9 ᭶ 8. 㛗ᑿṇ᫛㸪ᓮ⏣┿୍㸪⣚㔝Ᏻᙪ㸪㞴Ἴᚨ㑻㸭BPI ࢞ࣛࢫᅛ໬య࡟࠾ࡅࡿࣚ࢘⣲ 129 ࡢ⁐ฟࣔࢹࣝࡢస〇㸭ࣖࣥࢢࢭ࣑ࣛࢫࢺ࣑࣮ࢸ࢕ࣥࢢ in ୰ᅄᅜ㸭㫽ྲྀ㸭2018 ᖺ 12 ᭶ 9. ᮅ಴ၨ㝧㸪ᓮ⏣┿୍㸪⣚㔝Ᏻᙪ㸪㞴Ἴᚨ㑻㸭␗᪉ᛶ࢞ࣛࢫࡢస〇࡜␗᪉ⓗ࡞≀ᛶホ ౯㸭ࣖࣥࢢࢭ࣑ࣛࢫࢺ࣑࣮ࢸ࢕ࣥࢢ in ୰ᅄᅜ㸭㫽ྲྀ㸭2018 ᖺ 12 ᭶ 10. ⴗཎⲁ㸪ᓮ⏣┿୍㸪⣚㔝Ᏻᙪ㸪㞴Ἴᚨ㑻㸭㔜㔠ᒓ㓟໬≀࢞ࣛࢫࡢሷᇶᗘホ౯ᡭἲࡢ ᳨ウ㸭ࣖࣥࢢࢭ࣑ࣛࢫࢺ࣑࣮ࢸ࢕ࣥࢢ in ୰ᅄᅜ㸭㫽ྲྀ㸭2018 ᖺ 12 ᭶ 11. ⛙ගḟ㑻㸪ᓮ⏣┿୍㸪⣚㔝Ᏻᙪ㸪㞴Ἴᚨ㑻㸭SnO-ZnO-P2O5⣔࢞ࣛࢫࡢⓎග≉ᛶ㸭 ࣖࣥࢢࢭ࣑ࣛࢫࢺ࣑࣮ࢸ࢕ࣥࢢ in ୰ᅄᅜ㸭㫽ྲྀ㸭2018 ᖺ 12 ᭶ 12. ᑠ㇂ࡃࡿࡳ㸪ᓮ⏣┿୍㸪⣚㔝Ᏻᙪ㸪㞴Ἴᚨ㑻㸭ከᡂศ࢞ࣛࢫࡢ≀ᛶண 㸭ࣖࣥࢢࢭ ࣑ࣛࢫࢺ࣑࣮ࢸ࢕ࣥࢢ in ୰ᅄᅜ㸭㫽ྲྀ㸭2018 ᖺ 12 ᭶ 13. ฟᡞᕼ㸪ᓮ⏣┿୍㸪⣚㔝Ᏻᙪ㸪㞴Ἴᚨ㑻㸭Nb ྵ᭷ࢫࢬࣜࣥ㓟ሷ࢞ࣛࢫࡢࢩ࣑ࣗࣞ ࣮ࢩࣙࣥ࡟ࡼࡿᵓ㐀ゎᯒ㸭ࣖࣥࢢࢭ࣑ࣛࢫࢺ࣑࣮ࢸ࢕ࣥࢢ in ୰ᅄᅜ㸭㫽ྲྀ㸭2018 ᖺ 12 ᭶ 14. 㧗ᮌዉኸ㸪ᓮ⏣┿୍㸪⣚㔝Ᏻᙪ㸪㞴Ἴᚨ㑻㸭✀ࠎࡢሷᇶᗘホ౯ᡭἲࡢጇᙜᛶホ౯㸭 ࣖࣥࢢࢭ࣑ࣛࢫࢺ࣑࣮ࢸ࢕ࣥࢢ in ୰ᅄᅜ㸭㫽ྲྀ㸭2018 ᖺ 12 ᭶ 15. ᶓᒣ᫭㟷㸪ᓮ⏣┿୍㸪⣚㔝Ᏻᙪ㸪㞴Ἴᚨ㑻㸭⬺ࣜࣥࢫࣛࢢ࠿ࡽࡢࣜࣥᅇ཰㸭ࣖࣥࢢ ࢭ࣑ࣛࢫࢺ࣑࣮ࢸ࢕ࣥࢢ in ୰ᅄᅜ㸭㫽ྲྀ㸭2018 ᖺ 12 ᭶

16. T. Izawa, K. Nishikawa, K. Watanabe, T. Tajima, H. Miyake, Y. Takaguchi㸭SWCNT Photocatalysts for Hydrogen Evolution from Water㸭233th ECS Meeting㸭Seattle㸭2018 ᖺ 5 ᭶

Carbon Nanotubes with Dendrimer Having Mercaptoundecahydrododecaborates (Na2B12H11S) at Terminals 㸭 The 15th International Symposium on Inorganic Ring Systems㸭Uji㸭2018 ᖺ 6 ᭶

18. H. Miyake, T. Ito, M. Shibata, N. Murakami, K. Ishimoto, T. Izawa, T. Tajima, Y. Takaguchi 㸭 Development of Functional Dye Compounds Bearing 2,1,3-Benzochalcogenadiazole Moiety㸭The 15th International Symposium on Inorganic Ring Systems㸭Uji㸭2018 ᖺ 6 ᭶

19. Y. Takaguchi, T. Izawa, D. Miyamoto, T. Tajima, H. Miyake㸭H2-evolving SWCNT Photocatalysts for Effective Use of Solar Energy㸭7th Workshop on Nanotube Optics and Nanospectroscopy (WONTON 2018)㸭Hakone㸭2018 ᖺ 7 ᭶

20. T. Tajima㸭Solid-state fluorescence behavior induced by disproportionation reaction of 6,13-dihydropentacene 㸭 Colloquium Session of the Workshop on Photofunctional Materials㸭Okayama㸭2018 ᖺ 7 ᭶

21. Y. Takaguchi㸭H2-evolving SWCNT photocatalysts for effective use of solar energy㸭 Colloquium Session of the Workshop on Photofunctional Materials㸭Okayama㸭2018 ᖺ 7 ᭶

22. T. Izawa, H. Miyake, T. Tajima, R. Sagawa, Y. Takaguchi㸭H2 Evolution from Water Photosensitized by Benzothiadiazole-Based Dyes: Effect of Elongation of ȧ-conjugated System Encapsulated into Carbon Nanotubes㸭28th International Symposium on the Organic Chemistry of Sulfur㸭Uji㸭2018 ᖺ 8 ᭶

23. M. Yamagami, K. Ishimoto, T. Tajima, H. Miyake, H. Michiue, Y. Takaguchi㸭Physical Modification of Carbon Nanotubes with Dendrimer Having Mercaptoundecahydrodecaborates (Na2B12H11S) at Terminals 㸭 28th International Symposium on the Organic Chemistry of Sulfur㸭Uji㸭2018 ᖺ 8 ᭶

24. H. Miyake, T. Ito, M. Shibata, T. Tajima, Y. Takaguchi㸭Syntheses of Donor-Acceptor Oligomers by Direct Arylation of Thiophene and 2,1,3-Benzothiadiazole Moieties㸭28th International Symposium on the Organic Chemistry of Sulfur㸭Uji㸭2018 ᖺ 8 ᭶

25. R. Hirayama, T. Tajima, S. Okabe, Y. Takaguchi㸭Photoinduced Electron Transfer from Anthracene to MoS2 in a Supramolecular System㸭14th Korea-Japan Symposium on Frontier Photoscience: Photochemistry, Solar Cells, and Photocatalysts㸭Gwangju, Korea 㸭2018 ᖺ 11 ᭶

26. S. Okabe, T. Tajima, R. Hirayama, Y. Takaguchi㸭Photosensitized H2 Evolution from Water using MoSe2/Fullerodendron Nanocomposites㸭14th Korea-Japan Symposium on Frontier Photoscience: Photochemistry, Solar Cells, and Photocatalysts㸭Gwangju, Korea 㸭2018 ᖺ 11 ᭶

27. T. Izawa, H. Miyake, T. Tajima, R. Sagawa, Y. Takaguchi㸭Photosensitized H2 Evolution from Water Using Dye-Encapsulated Carbon Nanotubes㸭14th Korea-Japan Symposium on Frontier Photoscience: Photochemistry, Solar Cells, and Photocatalysts㸭Gwangju, Korea㸭2018 ᖺ 11 ᭶

28. D. Miyamoto, T. Izawa, T. Tajima, Y. Nishina, V. Kalousek, K. Ikeue, Y. Takaguchi㸭 H2-evolution CNT-photocatalyst Working with Quinone Derivatives as an Electron

Mediator㸭14th Korea-Japan Symposium on Frontier Photoscience: Photochemistry, Solar Cells, and Photocatalysts㸭Gwangju, Korea㸭2018 ᖺ 11 ᭶

29. M. Yamagami, K. Ishimoto, T. Tajima, H. Miyake, H. Michiue, Y. Takaguchi 㸭 Hybridization of a B12-cluster Dendrimer with Single-walled Carbon Nanotubes toward in-vivo Imaging of Boron Neutron Capture Therapy Agents 㸭 14th Korea-Japan Symposium on Frontier Photoscience: Photochemistry, Solar Cells, and Photocatalysts㸭 Gwangju, Korea㸭2018 ᖺ 11 ᭶

30. R. Hirayama, T. Tajima, S. Okabe, Y. Takaguchi㸭Photoinduced Electron Transfer from Anthracene to MoS2 in a Supramolecular System㸭Sungkyunkwan University (SKKU) ̽ Okayama University Joint Mini-Symposium at Sungkyunkwan University㸭Suwon, Korea 㸭2018 ᖺ 11 ᭶

31. S. Okabe, T. Tajima, R. Hirayama, Y. Takaguchi㸭Photosensitized H2 Evolution from Water Using MoSe2/Fullerodendron Nanocomposites 㸭 Sungkyunkwan University (SKKU) ̽ Okayama University Joint Mini-Symposium at Sungkyunkwan University㸭 Suwon, Korea㸭2018 ᖺ 11 ᭶

32. T. Izawa, H. Miyake, T. Tajima, R. Sagawa, Y. Takaguchi㸭Photosensitized H2 Evolution from Water Using Dye-Encapsulated Carbon Nanotubes 㸭 Sungkyunkwan University (SKKU) ̽ Okayama University Joint Mini-Symposium at Sungkyunkwan University㸭 Suwon, Korea㸭2018 ᖺ 11 ᭶

33. D. Miyamoto, T. Izawa, T. Tajima, Y. Nishina, V. Kalousek, K. Ikeue, Y. Takaguchi㸭 H2-evolution CNT-photocatalyst Working with Quinone Derivatives as an Electron Mediator 㸭 Sungkyunkwan University (SKKU) ̽ Okayama University Joint Mini-Symposium at Sungkyunkwan University㸭Suwon, Korea㸭2018 ᖺ 11 ᭶

34. M. Yamagami, K. Ishimoto, T. Tajima, H. Miyake, H. Michiue, Y. Takaguchi 㸭 Hybridization of a B12-cluster Dendrimer with Single-walled Carbon Nanotubes toward in-vivo Imaging of Boron Neutron Capture Therapy Agents㸭Sungkyunkwan University (SKKU) ̽ Okayama University Joint Mini-Symposium at Sungkyunkwan University㸭 Suwon, Korea㸭2018 ᖺ 11 ᭶

35. T. Tajima, Y. Takaguchi㸭Molecular Design of Benzothiadiazole-Based Dyes for Working with Carbon Nanotube Photocatalysts㸭Sungkyunkwan University (SKKU) ̽ Okayama University Joint Mini-Symposium at Sungkyunkwan University㸭Suwon, Korea㸭2018 ᖺ 11 ᭶

36. Y. Takaguchi, T. Izawa, R. Sagawa, T. Tajima, H. Miyake㸭Solid-state Fluorescence Behavior Induced by Disproportionation Reaction of 6,13-Dihydropentacene 㸭 Sungkyunkwan University (SKKU) ̽ Okayama University Joint Mini-Symposium at Sungkyunkwan University㸭Suwon, Korea㸭2018 ᖺ 11 ᭶

37. Y. Takaguchi, T. Izawa, K. Watanabe, D. Miyamoto, T. Tajima, H. Miyake㸭H2-evolving SWCNT Photocatalysts for Overall Water Splitting㸭➨ 28 ᅇ᪥ᮏ MRS ᖺḟ኱఍㸭໭஑ ᕞ㸭2018 ᖺ 12 ᭶

38. Y. Takaguchi, T. Izawa, K. Watanabe, D. Miyamoto, T. Tajima, H. Miyake㸭H2-evolving SWCNT Photocatalysts for Effective Use of Solar Energy㸭➨ 28 ᅇ᪥ᮏ MRS ᖺḟ኱఍

㸭໭஑ᕞ㸭2018 ᖺ 12 ᭶

39. H. Miyake, T. Ito, M. Shibata, N. Murakami, K. Ishimoto, T. Izawa, T. Tajima, Y. Takaguchi㸭Development of Organic Dye Compounds for Photosensitization of Carbon Nanotube Photocatalyst㸭᪥ᮏ໬Ꮫ఍➨ 98 ᫓Ꮨᖺ఍㸭⯪ᶫ㸭2018 ᖺ 3 ᭶ 40. ஭⃝ᣅᕫ㸪⏣ᔱᬛஅ㸪ᮧୖ⠊Ṋ㸪ᐑᮏ኱㍤㸪୕Ꮿ⚽᫂㸪Vit Kalousek㸪ụୖၨኴ㸪 㧗ཱྀ㇏㸭༢ᒙ࣮࢝࣎ࣥࢼࣀࢳ࣮ࣗࣈගゐ፹ࢆ⏝࠸ࡓ Z ࢫ࣮࣒࢟⣔ࡢᵓ⠏㸭᪥ᮏ໬ Ꮫ఍➨ 98 ᫓Ꮨᖺ఍㸭⯪ᶫ㸭2018 ᖺ 3 ᭶ 41. ⏣ᔱᬛஅ㸪▼ᮏᐶః㸪ᒣ⚄ᑗ኱㸪㐨ୖᏹஅ㸪㧗ཱྀ㇏㸭࣓ࣝ࢝ࣉࢺ࢘ࣥࢹ࢝ࣄࢻࣟࢻ ࢹ࣮࢝࣎ࣞࢺࢆᮎ➃࡟ࡶࡘ PAMAM ࢹࣥࢻ࣐࣮ࣜࢆ⏝࠸ࡓ SWCNTs ࡢྍศᩓ໬㸭 ᪥ᮏ໬Ꮫ఍➨ 98 ᫓Ꮨᖺ఍㸭⯪ᶫ㸭2018 ᖺ 3 ᭶ 42. ᒣ⚄ᑗ኱㸪▼ᮏᐶః㸪⏣ᔱᬛஅ㸪㐨ୖᏹஅ㸪㧗ཱྀ㇏㸭࣓ࣝ࢝ࣉࢺ࢘ࣥࢹ࢝ࣄࢻࣟ࣎ ࣮ࣞࢺ/⢾/༢ᒙ࣮࢝࣎ࣥࢼࣀࢳ࣮ࣗࣈ」ྜయࡢྜᡂ㸭᪥ᮏ໬Ꮫ఍➨ 98 ᫓Ꮨᖺ఍㸭 ⯪ᶫ㸭2018 ᖺ 3 ᭶ 43. ஭⃝ᣅᕫ, ୕Ꮿ⚽᫂, ⏣ᔱᬛஅ, బᕝᾴᖹ, 㧗ཱྀ㇏㸭Ⰽ⣲ෆໟ࣮࢝࣎ࣥࢼࣀࢳ࣮ࣗ ࣈࢆගቑឤ๣࡜ࡍࡿගỈ⣲⏕ᡂ཯ᛂ㸭2018 ග໬Ꮫウㄽ఍㸭රᗜ㸭2018 ᖺ 9 ᭶ 44. Ώ㑓᠇, ⏣ᔱᬛஅ, ୕Ꮿ⚽᫂, ᡞ⏣㈗♸, ⏣ᮧ㝯, 㧗ཱྀ㇏㸭[Ni-Fe]ࣄࢻࣟࢤࢼ࣮ࢮ ࡜࣮࢝࣎ࣥࢼࣀࢳ࣮ࣗࣈගゐ፹ࢆ⏝࠸ࡓග㥑ືỈ⣲⏕ᡂ཯ᛂ㸭2018 ග໬Ꮫウㄽ఍ 㸭රᗜ㸭2018 ᖺ 9 ᭶ 45. ⏣ᔱᬛஅ, ୕⏣㢗, すཎඞဢ, ⓑ஭ோኈ, ஂಖ೺ኴ㑻, 㧗ཱྀ㇏㸭6,13-ࢪࣄࢻࣟ࣌ࣥ ࢱࢭࣥㄏᑟయࡢ୙ᆒ໬཯ᛂ࡟కࡗࡓᅛయ⺯ගᣲື㸭2018 ග໬Ꮫウㄽ఍㸭රᗜ㸭 2018 ᖺ 9 ᭶ 46. 㧗ཱྀ㇏, ஭⃝ᣅᕫ, ᐑᮏ኱㍤, ୕Ꮿ⚽᫂, ⏣ᔱᬛஅ㸭ኴ㝧ග࢚ࢿࣝࢠ࣮฼⏝ࢆᣦྥ ࡋࡓ࣮࢝࣎ࣥࢼࣀࢳ࣮ࣗࣈගゐ፹࡟ࡼࡿỈ⣲⏕ᡂ཯ᛂ㸭➨ 67 ᅇ㧗ศᏊᏛ఍ウㄽ఍ 㸭ᮐᖠ㸭2018 ᖺ 9 ᭶ 47. Ώ㑓᠇, ⏣ᔱᬛஅ, ୕Ꮿ⚽᫂, ᡞ⏣㈗⿱, ⏣ᮧ㝯, 㧗ཱྀ㇏㸭[Ni-Fe-Se]ࣄࢻࣟࢤࢼ࣮ ࢮ࡜࣮࢝࣎ࣥࢼࣀࢳ࣮ࣗࣈගゐ፹ࢆ⏝࠸ࡓග㥑ືỈ⣲⏕ᡂ཯ᛂ㸭➨ 33 ᅇ୰ᅜᅄᅜ ᆅ༊㧗ศᏊⱝᡭ◊✲఍㸭ᗈᓥ㸭2018 ᖺ 11 ᭶ 48. ஭⃝ᣅᕫ, ୕Ꮿ⚽᫂, ⏣ᔱᬛஅ, బᕝᾴᖹ, 㧗ཱྀ㇏㸭Ⰽ⣲ෆໟ࣮࢝࣎ࣥࢼࣀࢳ࣮ࣗ ࣈࢆගቑឤ๣࡜ࡍࡿỈ⏕ᡂ཯ᛂ㸭➨ 33 ᅇ୰ᅜᅄᅜᆅ༊㧗ศᏊⱝᡭ◊✲఍㸭ᗈᓥ㸭 2018 ᖺ 11 ᭶ 49. ᮾᾏ┿ኸ, ᪂ྐ⣖, ᒣᓮៅ୍, ᮌᮧ㑥⏕㸭୧ᮎ➃ᇶࡢ࠿ࡉ㧗ࡉࡀ஫࠸࡟␗࡞ࡿࢸࣞ ࢣࣜࢵࢡ࣏࢚ࣜࢳࣞࣥࡢࣈࣞࣥࢻ࡟ࡼࡿ⤖ᬗ໬ไᚚ㸭ᖹᡂ 30 ᖺᗘ⧄⥔Ꮫ఍ᖺḟ኱ ఍㸭ᮾி㸭2018 ᖺ 6 ᭶ 50. ⚟ᮧឡ⨾, ὠ࿅⫱Ꮥ, ᮌᮧ㑥⏕㸭಴ᩜᕹᕸ࡟㛵ࡍࡿព㆑ㄪᰝ㸭ᖹᡂ 30 ᖺᗘ⧄⥔Ꮫ ఍ᖺḟ኱఍㸭ᮾி㸭2018 ᖺ 6 ᭶ 51. 㔝ᓮ⳯᦬, ᪂ྐ⣖, ᒣᓮៅ୍, ᮌᮧ㑥⏕, 㔝ᓮᾈ஧㸭㔜ྜ⤖ᬗ໬࡟ࡼࡾㄪ〇ࡋࡓ࣏ ࣜ(p-࢜࢟ࢩ࣋ࣥࢰ࢖ࣝ)࢘࢕ࢫ࣮࢝ࡢᇶᯈୖ࡛ࡢᡂ㛗㸭➨ 67 ᅇ㧗ศᏊᏛ఍ウㄽ఍ 㸭ᮐᖠ㸭2018 ᖺ 9 ᭶ 52. ྜྷ⏣ἋኸⳀ, ᪂ྐ⣖, ᒣᓮៅ୍, ᮌᮧ㑥⏕㸭⎔≧࣏࢚ࣜࢫࢸࣝࡢ࢚ࢫࢸࣝ஺᥮཯ᛂ ࡟ࡼࡿศᏊ㔞ኚ໬࡜┤㙐≧࣏࢚ࣜࢫࢸࣝ࡟ᑐࡍࡿ᰾⏕ᡂࡢಁ㐍࡜ᢚไຠᯝࡢศᏊ 㔞౫Ꮡᛶ㸭➨ 67 ᅇ㧗ศᏊᏛ఍ウㄽ఍㸭ᮐᖠ㸭2018 ᖺ 9 ᭶

53. ᒣᓮಇᘺ, ᑠᯘ្Ꮚ, ኱ᮧ㞞ஓ, ᪂ྐ⣖, ᒣᓮៅ୍, ᮌᮧ㑥⏕㸭࣏ࣜங㓟࡟ᑐࡍࡿ ࢭ࣮ࣝࣟࢫࢼࣀ⤖ᬗ࠾ࡼࡧࡑࡢㄏᑟయࡢ⤖ᬗ໬᰾๣࡜ࡋ࡚ࡢ᭷⏝ᛶ㸭➨ 67 ᅇ㧗ศ ᏊᏛ఍ウㄽ఍㸭ᮐᖠ㸭2018 ᖺ 9 ᭶ 54. ᯇᕝ኱ᝅ, ᒣᓮៅ୍, ᮌᮧ㑥⏕, ᪂ྐ⣖㸭⎔≧㧗ศᏊ࡜┤㙐≧㧗ศᏊࡢࣈࣞࣥࢻ⣔ ࡟࠾ࡅࡿ኱ኚᙧࢆక࠺ὶືሙ࡛ࡢ⤖ᬗ໬ᣲື㸭➨ 33 ᅇ୰ᅜᅄᅜᆅ༊㧗ศᏊⱝᡭ◊ ✲఍㸭ᗈᓥ㸭2018 ᖺ 11 ᭶ 55. ෙ᱇ே, ᒣᓮៅ୍, ᮌᮧ㑥⏕, ᪂ྐ⣖㸭࢚ࢳࣞࣥ-ࣉࣟࣆࣞࣥ᏶඲஺஫ඹ㔜ྜయࡢྜ ᡂ㸭➨ 33 ᅇ୰ᅜᅄᅜᆅ༊㧗ศᏊⱝᡭ◊✲఍㸭ᗈᓥ㸭2018 ᖺ 11 ᭶ 56. Ụ⏣༓⣫, ᪂ྐ⣖, ᒣᓮៅ୍, ᮌᮧ㑥⏕㸭⎔≧࣏࢚ࣜࢳࣞࣥ࡜ᫍᆺ࣏࢚ࣜࢳࣞࣥࡢ ࣈࣞࣥࢻ⣔࡟࠾ࡅࡿ⤖ᬗ໬ᣲື㸭ᖹᡂ 30 ᖺᗘ⧄⥔Ꮫ఍⛅Ꮨ◊✲Ⓨ⾲఍㸭⚟஭㸭 2018 ᖺ 11 ᭶ 57. 㔝ᓮ⳯᦬, ᪂ྐ⣖, ᒣᓮៅ୍, ᮌᮧ㑥⏕, 㔝ᓮᾈ஧㸭࢞ࣛࢫᇶᯈࢆ฼⏝ࡋࡓ࣏ࣜ㸦p-࢜࢟ࢩ࣋ࣥࢰ࢖ࣝ㸧࢘࢕ࢫ࣮࢝ࡢㄪ〇࡜㓄ิไᚚ㸭ᖹᡂ 30 ᖺᗘ⧄⥔Ꮫ఍⛅Ꮨ◊✲ Ⓨ⾲఍㸭⚟஭㸭2018 ᖺ 11 ᭶ 58. ᒣᓮಇᘺ, ᑠᯘ្Ꮚ, ኱ᮧ㞞ஓ, ᪂ྐ⣖, ᒣᓮៅ୍, ᮌᮧ㑥⏕㸭⏕ศゎᛶ࣏࢚ࣜࢫ ࢸࣝ㢮࡟ᑐࡍࡿࢭ࣮ࣝࣟࢫࢼࣀ⤖ᬗ࠾ࡼࡧࡑࡢㄏᑟయࡢ⤖ᬗ໬᰾๣࡜ࡋ࡚ࡢ᭷⏝ ᛶ㸭ᖹᡂ 30 ᖺᗘ⧄⥔Ꮫ఍⛅Ꮨ◊✲Ⓨ⾲఍㸭⚟஭㸭2018 ᖺ 11 ᭶ 59. ⸨ཎ㡪⨾, ᪂ྐ⣖, ᒣᓮៅ୍, ᮌᮧ㑥⏕㸭㔜ྜ┦ኚ໬࡟ࡼࡾㄪ〇ࡋࡓⰾ㤶᪘࣏ࣜ࢔ ࣑ࢻ࢖࣑ࢻࡢ⤖ᬗᙧែ࡟ཬࡰࡍ࢔࣑ࢻ⤖ྜࡢᙳ㡪㸭ᖹᡂ 30 ᖺᗘ⧄⥔Ꮫ఍⛅Ꮨ◊✲ Ⓨ⾲఍㸭⚟஭㸭2018 ᖺ 11 ᭶ 60. Ἑ⏣㥴ஓ, ᪂ྐ⣖, ᒣᓮៅ୍, ᮌᮧ㑥⏕㸭㔜ྜ┦ኚ໬࡟ࡼࡾྜᡂࡋࡓ࣏ࣜ㸦3㸪4-ࢪ ࢜࢟ࢩ࢝ࣇ࢙ࣟ࢖ࣝ㸧ࡢᙧែ࡜୺㙐ࡢศᒱᵓ㐀㸭ᖹᡂ 30 ᖺᗘ⧄⥔Ꮫ఍⛅Ꮨ◊✲Ⓨ ⾲఍㸭⚟஭㸭2018 ᖺ 11 ᭶ 61. ᪂ྐ⣖㸪ᮡᮏṇ㎿㸪ᒣᓮៅ୍㸪ᮌᮧ㑥⏕㸭ࢹ࢕ࣥࣉࣝᆺࣂ࢖࣮࢜࣋ࢫ㧗ᛶ⬟㧗ศᏊ ᚤ⢏Ꮚࡢㄪ〇㸭➨ 20 ᅇ㧗ศᏊ࣑ࢡࣟࢫࣇ࢙࢔ウㄽ఍㸭ᒸᒣ㸭2018 ᖺ 11 ᭶

62. H. Atarashi, M. Sugimoto, S. Yamazaki, K. Kimura 㸭 Microspheres with Dimple Morphology of Poly(poxyferuloyl) Prepared by Reaction-induced Phase Separation㸭The Fiber Society's Spring 2018 Conference㸭Tokyo㸭2018 ᖺ 6 ᭶

63. T. Kohara, H. Atarashi, S. Yamazaki, T. Uchida, K. Kimura 㸭 Preparation of Poly(1,4-phenylene terephthalamide) from Poly(ethylene terephthalate) by Means of Reaction-induced Crystallization㸭The Fiber Society's Spring 2018 Conference㸭Tokyo㸭 2018 ᖺ 6 ᭶

64. M. Fukumura, I. Turo, K. Kimura㸭A Consciousness Survey on Kurashiki Canvas and Design Proposal㸭The Fiber Society's Spring 2018 Conference㸭Tokyo㸭2018 ᖺ 6 ᭶ 65. 㧗ᶫ㝣ဢ, Md. A. Uddin, ຍ⸨჆ⱥ㸭㓑㓟ࢭ࣮ࣝࣟࢫ࠿ࡽࡢάᛶⅣㄪᩚ࡜ࡑࡢ྾╔ ⬟ホ౯㸭໬ᏛᕤᏛ఍➨ 83 ᖺ఍㸭රᗜ㸭2018 ᖺ 3 ᭶ 66. ᯇ⏣኱࿴, Md. A. Uddin, ຍ⸨჆ⱥ㸭㛤Ỉ㊰ὶࢀࢆ⏝࠸ࡓ〇㗰ࢫࣛࢢ࠿ࡽᾏỈ୰࡬ ࡢ࢔ࣝ࢝ࣜ⁐ฟᣲືࡢ㛗᫬㛫᥎⛣㸭᪥ᮏ㕲㗰༠఍➨ 176 ⛅Ꮨㅮ₇኱఍㸭௝ྎ㸭 2018 ᖺ 9 ᭶ 67. ཎ⏣⚈, Md. A. Uddin, ຍ⸨჆ⱥ㸭ᾋ㐟ศ㞳ἲ࡟ࡼࡿࢩࣜࢥࣥ⣔ᗫኴ㝧㟁ụ⢊ᮎ୰ ࡢ୙⣧≀㝖ཤ㸭᪥ᮏ㕲㗰༠఍➨ 176 ⛅Ꮨㅮ₇኱఍㸭௝ྎ㸭2018 ᖺ 9 ᭶

68. ⚄ᗞభஓ, Md. A. Uddin, ຍ⸨჆ⱥ㸭ࢮࣟ౯㕲⢊ ̿◲໬㕲ΰྜ⣔ࢆ⏝࠸ࡓỈ୰ள㖄 ࢖࢜ࣥࡢ㝖ཤள㖄࢖࢜ࣥࡢ㝖ཤ㸭໬ᏛᕤᏛ఍୰ᅜᅄᅜᨭ㒊࣭㛵すᨭ㒊ྜྠᚨᓥ኱఍ 㸭ᚨᓥ㸭2018 ᖺ 12 ᭶

ҡಅᛯ૨ᴾ

ࢭ࣑ࣛࢵࢡࢫᮦᩱᏛ◊✲ᐊ㸦ᣦᑟᩍဨ㸸㞴Ἴᚨ㑻࣭⣚㔝Ᏻᙪ࣭ᓮ⏣┿୍㸧 1. LIB ඘ᨺ㟁࡟క࠺ 2-line ࣇ࢙ࣜࣁ࢖ࢻࣛ࢖ࢺ㟁ᴟᮦᩱࡢᵓ㐀ኚ໬ࡢゎᯒ 2. SnO-P2O5⣔࢞ࣛࢫࡢ119_{Sn NMR ࡟ࡼࡿᵓ㐀ゎᯒ} 3. ⁐⼥ฎ⌮࡟ࡼࡿᅵተ୰ࡢࢭࢩ࣒࢘ࡢ᥹Ⓨᣲື 4. ᅽ⦰ฎ⌮ࡋࡓ࣓ࢱࣜࣥ㓟࣐ࢢࢿࢩ࣒࢘࢞ࣛࢫࡢస〇࡜␗᪉ᛶホ౯ 5. ሷᇶᗘ᧯స࡟ࡼࡿ㒔ᕷࢦ࣑⁐⼥ࢫࣛࢢࡢᵓᡂඖ⣲ࡢ⁐ฟᣲື 6. ࣮࢟ࣞࢺ๣ࢆ⏝࠸ࡓ‵ᘧ࣮࣑࣎ࣝࣝἲ࡟ࡼࡿᾮᬗ࢞ࣛࢫ୰ࡢࣄ⣲㝖ཤ࡟㛵ࡍࡿ◊ ✲ 7. ࣍࢘㓟ሷ⣔࢞ࣛࢫࡢሷᇶᗘホ౯࡜࢞ࣛࢫᵓ㐀࡜ࡢ┦㛵ゎ᫂  ↓ᶵᶵ⬟ᮦᩱ໬Ꮫ◊✲ᐊ㸦ᣦᑟᩍဨ㸸டᓥḠ୍࣭すᮏಇ௓㸧 8. ZSM-5 ᆺࢮ࢜ࣛ࢖ࢺࣂࣝࢡయࡢ࢞ࢫ㏱㐣ᛶ⬟ 9. Sm ࢆࢻ࣮ࣉࡋࡓ CeO2⾲㠃ࡢ⃿ࢀᛶ 10. ࢫࢸࣥࣞࢫᇶᯈୖ࡬ࡢࢮ࢜ࣛ࢖ࢺࡢᡂ⭷࡜㟁Ẽ≉ᛶホ౯ 11. 㕲⣔Ẋ≀ᅛ໬యࡢస〇࡜ࣜࣥ㓟࢖࢜ࣥ྾╔ᛶ⬟ 12. TiO2࡜ H2O2ࢆే⏝ࡋࡓᗫỈฎ⌮࡟ᑐࡍࡿ pH ࡢᙳ㡪 13. ࢔࣑ࣀ㓟/ࣁ࢖ࢻࣟࢱࣝࢧ࢖ࢺࡢ࢜ࣞ࢖ࣥ㓟ฎ⌮࡟ࡼࡿᨺฟᣲືไᚚ 14. 㖟ᢸᣢ㓟໬ள㖄ࡢ㓟ฎ⌮࡟ࡼࡿ㖟ᚤ⢏Ꮚࡢస〇  ᭷ᶵᶵ⬟ᮦᩱᏛ◊✲ᐊ㸦ᣦᑟᩍဨ㸸㧗ཱྀ㇏࣭⏣ᔱᬛஅ㸧 15. ࢩ࢙ࣝ࡟ࣅ࢜ࣟࢤࣥ㒊఩ࢆࡶࡘ(7,5)SWCNT/ࢹࣥࢻࣟࣥ㉸ศᏊ」ྜయࡢྜᡂ࡜ග ゐ፹⬟ 16. Mo(II)㘒యᢸᣢ CNT ගゐ፹ࢆ⏝࠸ࡿග❅⣲ᅛᐃ໬  17. WS2/࢔ࣥࢺࣜࣝࢹࣥࢻࣟࣥ㉸ศᏊ」ྜయࡢྜᡂ 18. ࣄࢻࣟࢤࢼ࣮ࢮࢆຓゐ፹࡟⏝࠸ࡿỈ⣲⏕ᡂ CNT ගゐ፹⣔ 19. CNT ගゐ፹࡜ BiVO4ࡢ┤᥋᥋ྜ࡟ࡼࡿ୙ᆒ୍Ỉ᏶඲ศゎ⣔ࡢᵓ⠏ 20. BNCT ⸆๣ࢆᣦྥࡋࡓ SWCNT/࣍࢘⣲ࢡࣛࢫࢱ࣮/ࢢࣝࢥ࣮ࢫ㉸ศᏊ」ྜయࡢྜᡂ  ⎔ቃ㧗ศᏊᮦᩱᏛ◊✲ᐊ㸦ᣦᑟᩍဨ㸸ᮌᮧ㑥⏕࣭ᒣᓮៅ୍࣭᪂ྐ⣖㸧 21. 㧗ศᏊ࢘࢕ࢫ࣮࢝ᙉ໬࣏࢚ࣜࢳࣞࣥ」ྜᮦᩱࡢ࣏࣡ࣥࢵࢺㄪ〇࡜≀ᛶホ౯ 22. PEDOT/PSS ᮦᩱࡢᛶ⬟ྥୖࢆ┠ᣦࡋࡓ㧗ศᏊᚤ⢏Ꮚࡢㄪ〇 23. ෆ〇᰾ࢆ㗪ᆺ࡜ࡋࡓ࣏ࣜ(4-࢜࢟ࢩ࣋ࣥࢰ࢖ࣝ-co-2-ࢡࣟࣟ-4-࢜࢟ࢩ࣋ࣥࢰ࢖ࣝ)㔪 ≧⤖ᬗࡢㄪ〇 24. ࢝ࣇ࢙㓟ࢆཎᩱ࡜ࡋࡓ㔜ྜ┦ኚ໬࡟ࡼࡿ㧗ศᏊྜᡂ࡜཯ᛂⅬไᚚ 25. ࢚ࢳࣞࣥ㸫ࣉࣟࣆࣞࣥ᏶඲஺஫ඹ㔜ྜయࡢ๓㥑య࣏࣐࣮ࣜࡢྜᡂ 26. ࣏ࣜࢪ࢜࢟ࢧࣀࣥ࠾ࡼࡧࡑࡢඹ㔜ྜయࡢྜᡂ࡜ࡑࢀࡽࡢὶືሙ⤖ᬗ໬࡜ศゎᣲື 27. ⎔≧࡜┤㙐≧࣏࢚ࣜࢳࣞࣥࣈࣞࣥࢻ⣔ࡢศᏊ㙐ࡢ኱ኚᙧࢆక࠺ὶືሙ࡟࠾ࡅࡿ⤖

ᬗ໬ᣲື 28. 㔜ྜ⤖ᬗ໬ࢆ฼⏝ࡋࡓ࣏ࣜ(p-ࣇ࢙ࢽࣞࣥࢸࣞࣇࢱ࣮ࣞࢺ)ࡢ㔪≧⤖ᬗࡢㄪ〇  ⎔ቃࣉࣟࢭࢫᕤᏛ◊✲ᐊ㸦ᣦᑟᩍဨ㸸ᮌᮧᖾᩗ࣭ᓥෆᑑᚨ㸧 29. ⬡㉁⭷⏺㠃࡟࠾ࡅࡿࢱࣥࣃࢡ㉁ಟ᚟ືస≉ᛶࡢ᳨ウ 30. 㓟໬ࢢࣛࣇ࢙ࣥࢆ⏝࠸ࡓ⡆౽࡞࣏ࣜࢯ࣮࣒ᅛᐃ໬ἲࡢ㛤Ⓨ 31. ࢼࣀࣜ࢔ࢡࢱ࣮࡬ࡢᛂ⏝ࢆ┠ᣦࡋࡓ࣏ࣜࢯ࣮࣒⭷ࡢὶື≉ᛶࡢ໬ᏛᕤᏛⓗホ౯ 32. ᾮᾮࢫࣛࢢὶ࡟࠾ࡅࡿ≀㉁⛣ື࡜⏺㠃≉ᛶࡢ㛵ಀ 33. ࢔࣏࣏ࣜࢱࣥࣃࢡ㉁ࡢ࢔࣑ࣟ࢖ࢻᙧᡂ࡟ᇶ࡙ࡃ㐣㣬࿴ᗘホ౯ 34. ⬡㉁ᖹ㠃⭷࡟࠾ࡅࡿࢱࣥࣃࢡ㉁ࡢᣑᩓ≉ᛶ࡟ᇶ࡙ࡃ⤖ᬗ໬ᶵᵓࡢ᳨ウ 35. ள⮫⏺Ỉங໬ἲ࡜⁐፹ᣑᩓἲࢆ⤌ࡳྜࢃࡏࡓ⬡㉁ศᏊ㞟ྜయࡢ᪂つㄪ〇ἲ࡜ࡑࡢ ≉ᛶホ౯  ⎔ቃ཯ᛂᕤᏛ◊✲ᐊ㸦ᣦᑟᩍဨ㸸ຍ⸨჆ⱥ࣭࢔ࢬࣁ࢘ࢵࢹ࢕ࣥ㸧 36. ࣜࣥ㓟ཬࡧ◪㓟ࢆ⏝࠸ࡓኴ㝧㟁ụࢭࣝࣜࢧ࢖ࢡࣝࡢࡓࡵࡢࢣ࣑࢚࢝ࣝࢵࢳࣥࢢ᮲ ௳ࡢ᳨ウ 37. ୗỈởἾࢆཎᩱ࡜ࡍࡿάᛶⅣࡢㄪ〇࡜྾╔ᛶ⬟ 38. Fe-Ce ⣔ゐ፹ࢆ⏝࠸ࡓ➉⛩ࡢ࢞ࢫ໬࡛⏕ࡌࡿࢱ࣮ࣝࡢศゎ 39. PIV ࢆ⏝࠸ࡓ␗࡞ࡿ࢖࣮ࣥ࣌ࣛᙧ≧ࡢࣇ࣮ࣟࣃࢱ࣮ࣥࡢẚ㍑ 40. Ỉ⇕ྜᡂἲࡲࡓࡣࢩࣜ࢝ࢤࣝࡢࢰࣝࢤࣝἲ࡟ࡼࡿ໬Ꮫࢭࣥࢧ⏝ගࣇ࢓࢖ࣂ࣮࡬ࡢ ZSM-5 ⭷స〇 41. 㛤Ỉ㊰⿦⨨ࢆ⏝࠸ࡓ〇㗰ࢫࣛࢢ࠿ࡽᐇᾏỈ୰࡬ࡢ㛗᫬㛫࢔ࣝ࢝ࣜ⁐ฟᣲື 42. Ni ᢸᣢ࢔࣑ࣝࢼゐ፹࡟ࡼࡿ NH3ࢆ⏝࠸ࡓ CO2࣓ࢱࢿ࣮ࢩࣙࣥ

̲ٟᛯ૨ᴾ

ࢭ࣑ࣛࢵࢡࢫᮦᩱᏛ◊✲ᐊ㸦ᣦᑟᩍဨ㸸㞴Ἴᚨ㑻࣭⣚㔝Ᏻᙪ࣭ᓮ⏣┿୍㸧 1. ࣜࣥ㓟࢝ࣝࢩ࣒࢘⣔࢞ࣛࢫ࡟࠾ࡅࡿ␗᪉ᛶㄏ㉳㐣⛬ࡢศᏊືຊᏛࢩ࣑࣮ࣗࣞࢩࣙ ࣥ  2. 㧗 ⁐⼥ἲ࡟ࡼࡾㄪ〇ࡉࢀࡓࢫࣛࢢࡢᵓᡂඖ⣲ࡢ⁐ฟᣲື 3. ⬺ࣜࣥࢫࣛࢢࡢ㑏ඖ⁐⼥ฎ⌮࡟క࠺ᵓᡂᡂศࡢศ㓄ᣲື 4. ᅽ⦰ኚᙧࡉࡏࡓࣜࣥ㓟ሷ࢞ࣛࢫࡢ␗᪉ᛶホ౯ 5. SnO-ZnO-P2O5࢞ࣛࢫࡢᵓ㐀࡜Ⓨග≉ᛶ 6. X ⥺␗ᖖᩓ஘࡟ࡼࡿ 2 ᡂศ⣔ࢸࣝࣛ࢖ࢺ࢞ࣛࢫࡢᵓ㐀ゎᯒ  ↓ᶵᶵ⬟ᮦᩱ໬Ꮫ◊✲ᐊ㸦ᣦᑟᩍဨ㸸டᓥḠ୍࣭すᮏಇ௓㸧 7. EDTA ฎ⌮ࢆ⏝࠸ࡓ࢖࣓ࣝࢼ࢖ࢺ࠿ࡽࡢ㕲ᡂศ࡜ࢳࢱࣥᡂศࡢศ㞳᪉ἲࡢ᳨ウ 8. ᒙ≧」Ỉ㓟໬≀ࢼࣀࢩ࣮ࢺ࠿ࡽࡢゐ፹ࡢస〇࡜ゐ፹άᛶࡢホ౯ 9. 㓟໬ࢳࢱࣥⷧ⭷࡬ࡢࢩࣛࣀ࣮ࣝᇶಟ㣭ฎ⌮ᅇᩘࡀࢭࣝࣇࢡ࣮ࣜࢽࣥࢢ≉ᛶ࡟୚࠼ ࡿᙳ㡪 10. 㕲࡜✀ࠎࡢ㔠ᒓ࠿ࡽ࡞ࡿᒙ≧」Ỉ㓟໬≀ࡢ㐣㓟໬Ỉ⣲ศゎᛶ⬟ホ౯ 11. 㓟໬ࢽ࢜ࣈ⾲㠃ࡢỈ୰࡟࠾ࡅࡿἜࡢ⃿ࢀᛶ 12. ࢪࣝࢥࢽ࢔ࢆῧຍࡋࡓ Ni/GDC ࢔ࣀ࣮ࢻࡢ⇞ᩱ㟁ụ≉ᛶホ౯ 13. SiC ࣁࢽ࣒࢝࡬ࡢ H-ZSM-5 ࡢ」ྜ໬ 14. 㓟໬ࢳࢱ࡛ࣥಟ㣭ࡉࢀࡓ㓟໬㕲ゐ፹ࡢస〇࡜Ỉฎ⌮≉ᛶ 15. ኳ↛ࢮ࢜ࣛ࢖ࢺ࠿ࡽࡢࢪ࣏࣐࣮࢜ࣜ⏕ᡂ࡟ཬࡰࡍ௙㎸ࡳ⤌ᡂࡢᙳ㡪 16. 㓟໬ࢳࢱࣥගゐ፹⾲㠃࡛ࡢỈ୰࡟࠾ࡅࡿ⬡⫫㓟ࡢ⃿ࢀᛶ  ᭷ᶵᶵ⬟ᮦᩱᏛ◊✲ᐊ㸦ᣦᑟᩍဨ㸸㧗ཱྀ㇏࣭⏣ᔱᬛஅ㸧 17. BNCT ࢆᣦྥࡋࡓ SWCNT/࣍࢘⣲ࢡࣛࢫࢱ࣮㉸ศᏊ」ྜయࡢྜᡂ࡜ࢱ࣮ࢤࢸ࢕ࣥ ࢢ㒊఩ᑟධἲࡢ㛤Ⓨ 18. N,N’-ࣅࢫ࢔ࣝ࢟ࣝ-6,13-ࢪࣄࢻࣟ࣌ࣥࢱࢭࣥ[2,3:9,10]ࣅࢫ࢝ࣝ࣎࢟ࢩ࢖࣑ࢻࡢᵓ 㐀࡜ᛶ㉁ 19. ᮎ➃࡟ࣅ࢜ࣟࢤࣥ㒊఩ࢆࡶࡘࢹࣥࢻ࣐࣮ࣜ࡟ࡼࡿ HiPco ࢳ࣮ࣗࣈࡢ⾲㠃ಟ㣭࡜Ỉ ⣲⏕ᡂගゐ፹࡬ࡢᛂ⏝ 20. N,N’-ࣅࢫ࢔ࣝ࢟ࣝ-6,13-ࢪࣄࢻࣟ࣌ࣥࢱࢭࣥ[2,3:9,10]ࣅࢫ࢝ࣝ࣎࢟ࢩ࢖࣑ࢻࡢ⇕ ࠾ࡼࡧග཯ᛂ 21. MoS2/࢔ࣥࢺࣜࣝࢹࣥࢻࣟࣥ㉸ศᏊ」ྜయࡢྜᡂ࡜ග≀ᛶ 22. ࣮࢝࣎ࣥࢼࣀࢳ࣮ࣗࣈගゐ፹ࢆ⏝࠸ࡓ Z-scheme ᆺỈศゎ཯ᛂ  ⎔ቃ㧗ศᏊᮦᩱᏛ◊✲ᐊ㸦ᣦᑟᩍဨ㸸ᮌᮧ㑥⏕࣭ᒣᓮៅ୍࣭᪂ྐ⣖㸧 23. 㔜ྜ┦ኚ໬ࢆ฼⏝ࡋࡓ㧗ᛶ⬟࢔࣑ࣛࢻ୰✵ᚤ⢏Ꮚࡢㄪ〇࡜⢏ᚄไᚚ 24. ࡏࢇ᩿ὶືሙ࡛ࡢ㔜ྜ┦ኚ໬ࢆ฼⏝ࡋࡓ࣏ࣜ(L-ங㓟)ࡢ㑅ᢥⓗ㔜ྜἲࡢ㛤Ⓨ

25. ୧ᮎ➃ᇶࡢ࠿ࡉ㧗ࡉࡀ␗࡞ࡿࢸࣞࢣࣜࢵࢡ࣏࢚ࣜࢳࣞࣥΰྜ⣔ࡢ⤖ᬗ໬ᣲື 26. ࣇࣛࣥࢪ࢝ࣝ࣎ࣥ㓟ࢆᚲ㡲ᡂศ࡜ࡍࡿ࢝ࣝࢻᆺⰾ㤶᪘࣏࢚ࣜࢫࢸࣝࡢྜᡂ࡜ホ౯ 27. ⎔≧࣏࢚ࣜࢫࢸࣝࡢ࢚ࢫࢸࣝ஺᥮཯ᛂ࡟ࡼࡿศᏊ㔞ኚ໬࡜┤㙐≧࣏࢚ࣜࢫࢸࣝ࡟ ᑐࡍࡿ᰾⏕ᡂࡢಁ㐍࡜ᢚไຠᯝࡢศᏊ㔞౫Ꮡᛶ  ⎔ቃࣉࣟࢭࢫᕤᏛ◊✲ᐊ㸦ᣦᑟᩍဨ㸸ᮌᮧᖾᩗ࣭ᓥෆᑑᚨ㸧 28. ᇶ㉁-⬡㉁-㔠ᒓ㘒య⣔ࡢ⮬ᕫ⤌⧊໬ࡢไᚚ࡜཯ᛂࣉࣟࢭࢫࡢᵓ⠏㹼࣏ࣜங㓟㔜ྜ ࢆࢣ࣮ࢫࢫࢱࢹ࢕࡜ࡋ࡚㹼 29. ࣏ࣜࢯ࣮࣒⭷࡬ࡢ࢔࣑ࣟ࢖ࢻEࢱࣥࣃࢡ㉁ࡢ⵳✚࡟ཬࡰࡍ⏺㠃ࡺࡽࡂ/஧ḟඖ┦ศ 㞳ࡢຠᯝ 30. ࣌ࣉࢳࢻ-⬡㉁ㄏᑟయࢆ⏝࠸ࡓ࢔࣑ࣟ࢖ࢻᶆⓗᆺ㉸ศᏊ࣐ࢩࢼ࣮ࣜࡢ๰〇 31. 㔠ᒓゐ፹/࣏ࣜࢯ࣮࣒ࡢࣁ࢖ࣈࣜࢵࢻ໬ࢆᣦྥࡋࡓ in situ gel ໬ࣉࣟࢭࢫࡢ㛤Ⓨ 32. ⭷ࡢ஧ḟඖ┦ศ㞳≉ᛶࡀ Apo A-Ϩࢱࣥࣃࢡ㉁ࡢ஧ḟ᰾໬࡟୚࠼ࡿᙳ㡪 33. ள⮫⏺Ỉࢆ฼⏝ࡋࡓங໬㔜ྜ࡟࠾ࡅࡿᚤ⢏Ꮚᚤ⣽໬ᶵᵓࡢゎ᫂ 34. ஺ᕪ࢔ࣝࢻ࣮ࣝ⦰ྜࢆࢣ࣮ࢫࢫࢱࢹ࢕࡜ࡍࡿ Liposome ⭷ࡢ཯ᛂሙ≉ᛶࡢホ౯  ⎔ቃ཯ᛂᕤᏛ◊✲ᐊ㸦ᣦᑟᩍဨ㸸ຍ⸨჆ⱥ࣭࢔ࢬࣁ࢘ࢵࢹ࢕ࣥ㸧 35. ᅇศἲࢆ⏝࠸ࡓ㉸㡢Ἴ↷ᑕ᫬ࡢ TCE ศゎ㏿ᗘ 36. ㉸㡢Ἴ↷ᑕ࠾ࡼࡧᶵᲔ᧠ᢾ࡟ࡼࡿจ㞟యࡢศᩓᣲືࡢẚ㍑

37. Fischer-Tropsch ྜᡂࡢࡓࡵࡢ Co-Pt ᢸᣢE-zeolite ゐ፹ࡢ㛤Ⓨ࡜≉ᛶホ౯ 38. CeO2/Fe2O3⣔྾╔๣ࢆ⏝࠸ࡓ▼Ⅳ࢞ࢫ໬࢞ࢫ୰ࡢỈ㖟㝖ཤ

39. 㓟ฎ⌮࡟ࡼࡿᗫኴ㝧㟁ụࣔࢪ࣮ࣗࣝ⏤᮶ࡢ⢊ᮎ࠿ࡽࡢ Cu, Al ࡢᾐฟ㏿ᗘ