論文
305.Shuntaro Tsubaki, Tomoki Higuchi, Tomoki Matsuzawa, Satoshi Fujii, Masateru Nishioka, Yuji Wada. Real-Time Facile Detection of the WO3 Catalyst Oxidation State under Microwaves Using a Resonance Frequency, ACS Omega, Vol. 5, No. 49, pp. 31957–31962, Dec. 2020.
304.Yuki Sasahara, Koki Kanatani, Masayuki Matsuhisa, Yuji Wada, Ryota Shimizu, Norimasa Nishiyama, Taro Hitosugi. Impact of Surface Roughness on Recrystallization of an α-Al2O3(001) Single Crystal to α-AlO(OH) Diaspore Microcrystals, ACS Omega, 5, 23520, Sept. 2020.
303.Shuntaro Tsubaki, Kosuke Furusawa, Hidetaka Yamada, Tsuguhiro Kato, Takayuki Higashii, Satoshi Fujii, Yuji Wada. Insights into the dielectric-heating-enhanced regeneration of CO2-rich aqueous amine solutions, ACS Sustainable Chemistry & Engineering, vol. 8, No. 36, pp. 13593-13599, Aug. 2020.
302.Taishi Ano, Shuntaro Tsubaki, Anyue Liu, Masayuki Matsuhisa, Satoshi Fujii, Ken Motokura, Wang-Jae Chun, Yuji Wada. Probing the temperature of supported platinum nanoparticles under microwave irradiation by in situ and operando XAFS, July 2020.
301.Masayuki Matsuhisa, Shuntaro Tsubaki, Fuminao Kishimoto, Satoshi Fujii, Iku Hirano, Masahiro Horibe, Eiichi Suzuki, Ryota Shimizu, Taro Hitosugi, Yuji Wada. Hole Accumulation at the Grain Boundary Enhances Water Oxidation at α-Fe2O3 Electrodes under Microwave Electric Field, The Journal of Physical Chemistry C, 124, 7749-7759, Mar. 2020.
300.Naomi Inazu, Eiichi Suzuki, Satoshi Fujii, Shuntaro Tsubaki, Yuji Wada. A facile formation of vanadium(0) by the reduction of vanadium pentoxide pelletized with magnesium oxide enabled by microwave irradiation, ChemistrySelect, Vol. 5, pp. 2949-2953, Mar. 2020.
299.Satoshi Fujii, Eiichi Suzuki, Naomi Inazu, Shuntaro Tsubaki, Jun Fukushima, Hirotsugu Takizawa, Yuji Wada. Microwave irradiation process for Al–Sc alloy production, Scientific Reports, Vol. 10, pp. 2689, Feb. 2020.
298.Shuntaro Tsubaki, Tomoki Matsuzawa, Eiichi Suzuki, Satoshi Fujii, Yuji Wada. Operando Raman spectroscopy of the microwave-enhanced catalytic dehydration of 2-propanol by WO3, Industrial and Engineering Chemistry Research, Vol. 59, No. 5, pp. 1781-1788, Jan. 2020.
297.Taishi Ano, Masato Maitani, Yuka Sato, Shuntaro Tsubaki, Yuji Wada. Microwave heating of percolated Pt metal nanoparticles supported on Al2O3 substrate, Processes, Vol. 8, No. 1, pp. 72, Jan. 2020.
296.Heeyoel Baek, Kei-ichiro Kashimura, Takashi Fujii, Shuntaro Tsubaki, Yuji Wada, Shigenori Fujikawa, Takuma Sato, Yasuhiro Uozumi, Yoichi M. A. Yamada. Production of bio hydrofined diesel, jet fuel, and carbon monoxide from fatty acids using a silicon nanowire array-supported rhodium nanoparticle catalyst under microwave conditions, ACS Catalysis, Vol. 10, pp. 2148-2156, Jan. 2020.
295.Pablo. B. Sánchez, Shuntaro Tsubaki, Agilo H. Pádua, Yuji Wada. Kinetic analysis of microwave-enhanced cellulose dissolution in ionic solvents, Physical Chemistry Chemical Physics, Vol. 22, pp. 1003-1010, Nov. 2019.
294.Shuntaro Tsubaki, Yuki Nakasako, Noriko Ohara, Masateru Nishioka, Satoshi Fujii, Yuji Wada. Ultra-fast pyrolysis of lignocellulose using highly tuned microwaves: Synergistic effect of cylindrical cavity resonator and frequency-auto-tracking solid-state microwave generator, Green Chemistry, Vol. 22, pp. 342-351, Oct. 2019.
293.Fuminao Kishimoto, Masayuki Matsuhisa, Takashi Imai, Dai Mochizuki, Shuntaro Tsubaki, Masato M. Maitani, Eiichi Suzuki, Yuji Wada. Remote Control of Electron Transfer Reaction by Microwave Irradiation: Kinetic Demonstration of Reduction of Bipyridine Derivatives on Surface of Nickel Particle, J. Phys. Chem. Lett., Vol. 2019, No. 10, pp. 3390-3394, May 2019.
292.Shuntaro Tsubaki, Tomoki Matsuzawa, Satoshi Fujii, Ei-ichi Suzuki, Hiroshi Kanamori, Takeshi Hoshino, Satoshi Hosoda, Yuji Wada. In situ Raman monitoring of dielectric-heating-enhanced freeze-drying under different electromagnetic wave frequencies, RSC Advances, Vol. 2019, No. 9, pp. 9001-9005, Mar. 2019.
291.Masato M. Maitani, Akito Tateyama, Pablo P. Boix, Guifang Han, Akio Nitta, Bunsho Ohtani, Nripan Mathews, Yuji Wada. Effects of energetics with {001} facet-dominant anatase TiO2 scaffold on electron transport in CH3NH3PbI3 perovskite solar cells, Electrochimica Acta, Vol. 3, pp. 445-454, Mar. 2019.
290.Naoto Haneishi, Shuntaro Tsubaki, Eriko Abe, Masato M. Maitani, Suzuki Ei-ichi, Satoshi Fujii, Jun Fukushima, Hirotsugu Takizawa, Yuji Wada. Enhancement of Fixed-bed Flow Reactions under Microwave Irradiation by Local Heating at the Vicinal Contact Points of Catalyst Particles, Scientific Reports, Vol. 9, No. 1, pp. 222, Jan. 2019.
289.Shuntaro Tsubaki, Shogo Hayakawa, Tadaharu Ueda, Satoshi Fujii, Ei-ichi Suzuki, Jie Zhang, Alan Bond, Yuji Wada. Radio frequency alternating electromagnetic field enhanced tetraruthenium polyoxometalate electrocatalytic water oxidation, Chemical Communications, Vol. 55, No. 8, pp. 1032-1035, Jan. 2019.
288. Fuminao Kishimoto, Dai Mochizuki, Masato M. Maitani, Eiichi Suzuki, Yuji Wada. Construction of Highly Hierarchical Layered Structure Consisting of Titanate Nanosheets, Tungstate Nanosheets, Ru(bpy)32+, and Pt(terpy) for Vectorial Photoinduced Z-Scheme Electron Transfer, Appl. Mater Interfaces, Vol. 2018, No. 10, pp. 37150-37162, Oct. 2018.
287. Shuntaro Tsubaki, Shogo Hayakawa, Tadaharu Ueda, Tomohiko Mitani, Ei-ichi Suzuki, Satoshi Fujii, Yuji Wada. Proton-enhanced dielectric properties of polyoxometalates in water under radio-frequency electromagnetic waves, Materials, Vol. 11, No. 7, pp. 1202, July 2018.
286. Ryota Yamano, Yu Shibata, Fuminao Kishimoto, Shuntaro Tsubaki, Yuji Wada, Ken Tanaka. Reversible Mechanochlomic Luminescence of a Heteroatom-Free Helically Chiral Hydrocarbon, Chem. Lett., vol. 47, pp. 1228-1231, July 2018.
285. Yuji Wada, Shuntaro Tsubaki, Masato M. Maitani, Satoshi Fujii, Fuminao Kishimoto, Naoto Haneishi. Physical Insight to Microwave Spceial Effects: Nonequilibrium Local Heating and Acceleration of Electron Transfer, Journal of The Japan Petroleum Institute, The Japan Petroleum Institute, Vol. 61, (2), pp. 98-105, Mar. 2018.
284. Effect of Aspect Ratio on the Permittivity of GraphiteFiber in Microwave Heating. Jun Fukushima, Shuntaro Tsubaki, Tomoki Matsuzawa, Keiichiro Kashimura, Tomohiko Mitani, Tomoaki Namioka, Satoshi Fujii, Naoki Shinohara, Hirotsugu Takizawa, Yuji Wada, Materials, 11, 169 (2018).
283. D–π–A dyes containing novel hydantoin anchoring groups for dye-sensitized solar cells. H. Masui, M. M. Maitani, S. Fuse, A. Yamamura, Y. Ogomi, S. Hayase, T. Kaiho, H. Tanaka, Y. Wada, T. Takahashi, Asian Journal of Organic Chemistry, 7, 458–464 (2018).
282. Acceleration of Water Electrolysis by Accumulation of Microwave Energy at a Pt Disk Electrode. Fuminao Kishimoto, Kah Hon Leong, Shinichiro Kawamura, Naoto Haneishi, Shuntaro Tsubaki, Yuji Wada, Chemistry Letters, 46, 1593–1596 (2017).
281. Technology for Materials Creation Using Microwaves: Use of Microwaves in Nano to Centimeter Scale. Yuji Wada, Satoshi Fujii, The journal of the Institute of Electronics, Information and Communication Engineers, 100, 1285–1289 (2017).
280. Effects of {001} Facet of Anatase TiO2 Single-crystalline Nanosheets. Masato M. Maitani, Keita Tanaka, Hirokazu Satou, Yuji Wada, Chemistry Letters, 46, 1624–1627 (2017).
279. Effects of {001} Facet of Anatase TiO2 Single-crystalline Nanosheets on Photoexcited Electron Transfer from Near-Infrared Dye-Sensitizer. Masato M. Maitani, Keita Tanaka, Hirokazu Satou, Yuji Wada, Chemistry Letters (2017).
278. Smelting of Scandium by Microwave Irradiation. Satoshi Fujii, Shuntaro Tsubaki, Naomi Inazu, Eiichi Suzuki, Yuji Wada, Materials, 10, 1138 (2017).
277. Electromagnetic and Heat-Transfer Simulation of the Catalytic Dehydrogenation of Ethylbenzene under Microwave Irradiation. Naoto Haneishi, Shuntaro Tsubaki, Masato M. Maitani, Eiichi Suzuki, Satoshi Fujii, Yuji Wada, Industrial and Engineering Chemistry Research, 56, 7685–7692 (2017).
276. Electron Transport Properties in Dye-sensitized Solar Cells with {001} Facet-Dominant TiO 2 Nanoparticles. Masato M. Maitani, Keita Tanaka, Qing Shen, Yuji Wada, Physical Chemistry Chemical Physics, 19, 22129–22140 (2017).
275. Crystalline orientation control using self-assembled TiO2 nanosheet scaffold to improve CH3NH3PbI3 perovskite solar cells. Masato M. Maitani, Hirokazu Satou, Aoi Ohmura, Shuntaro Tsubaki, Yuji Wada, Japanese Journal of Applied Physics, 56, 08MC17 (2017).
274. Hetero-epitaxial growth control of single-crystalline anatase TiO2 nanosheets predominantly exposing the {001} facet on oriented crystalline substrates. Masato Maitani, Keita Tanaka, Hirokazu Satou, Takayoshi OSHIMA, A. Ohtomo, Yuji Wada, CrystEngComm (2017).
273. Self-oriented TiO2 nanosheets in films for enhancement of electron transport in nanoporous semiconductor networks. M. M. Maitani, 徐 晨, 橋本 啓太郎, Y. Ueda, Y. Wada, Mater. Chem. Front., 1, 2094–2102 (2017).
272. Microwave Application to Efficient Annealing Process of CH3NH3PbI3 Perovskite Crystalline Films. Masato M. MAITANI, Daikichi ISO, Junbeom KIM, Shuntaro TSUBAKI, Yuji WADA, Electrochemistry, 85, 236–240 (2017).
271. Smelting Magnesium Metal using a Microwave Pidgeon Method. Yuji Wada, Satoshi Fujii, Eiichi Suzuki, Masato M. Maitani, Shuntaro Tsubaki, Satoshi Chonan, Miho Fukui, Naomi Inazu, Scientific Reports, 7, 46512 (2017).
270. Microwave Effects on Co-Pi Co-catalysts Deposited on α-Fe2O3 for Application to Photocatalytic Oxygen Evolution. Masato Maitani, Takuya Yamada, Hisanori Mashiko, Kohei Yoshimatsu, Takayoshi OSHIMA, A. Ohtomo, Yuji Wada, ACS Applied Materials & Interfaces (2017).
269. Injection-Locked Magnetron Using a Cross-Domain Analyzer. Satoshi Fujii, Masato M. Maitani, Eiichi Suzuki, Satoshi Chonan, Miho Fukui, Yuji Wada, IEEE Microwave and Wireless Components Letters, 26, 966 -968 (2016).
268. Enhancement of anodic current attributed to oxygen evolution on α-Fe2O3 electrode by microwave oscillating electric field. Fuminao Kishimoto, Masayuki Matsuhisa, Shinichiro Kawamura, Satoshi Fujii, Shuntaro Tsubaki, Masato M. Maitani, Eiichi Suzuki, Yuji Wada, Scientific Reports, 6, 35554 (2016).
267. Specific Electronic Absorptions of the Alternate Layered Nanostructures of Two Metal Oxides Synthesized via Thiol-ene Click Reaction. Fuminao Kishimoto, Taishi Ano, Dai Mochizuki, Takayuki. Terauchi, Masato M. Maitani, Eiichi Suzuki, Yuji Wada, RSC Adv., 6, 73830 -73841 (2016).
266. Distance-depending Photoinduced Electron Transfer at Two-Dimensional Interface in Alternate Stacked Structures of Tantalate Nanosheets and Tungstate Nanosheets. Ano Taishi, Kishimoto Fuminao, Mochizuki Dai, Tsubaki Shuntaro, Maitani Masato, Suzuki Eiichi, Wada Yuji, Chem Lett, 45, 1111-1113, (2016).
265. In situ temperature measurements of reaction spaces under microwaves using photoluminescent probes. Taishi Ano, Fuminao Kishimoto, Ryo Sasaki, Shuntaro Tsubaki, Masato M. Maitani, Eiichi Suzuki, Yuji Wada, Physical Chemistry Chemical Physics, 18, 13173-13179 (2016)
264. Low-temperature annealing of mesoscopic TiO2 films by interfacial microwave heating applied to efficiency improvement of dye-sensitized solar cells. Masato M. Maitani, Yohei Tsukushi, Niklas D.J. Hansen, Yuka Sato, Dai Mochizuki, Eiichi Suzuki, Yuji Wada, Solar Energy Materials & Solar Cells, 147, 198–202, (2016)
263. Microwave-assisted hydrothermal extraction of sulfated polysaccharides from Ulva spp. and Monostroma latissimum, Shuntaro Tsubaki, Kiriyo Oono, Masanori Hiraoka, Ayumu Onda, Tomohiko Mitani, Food Chemistry, 210, 311–316, (2016).
262. Effects of ionic conduction on hydrothermal hydrolysis of corn starch and crystalline cellulose induced by microwave irradiation, Shuntaro Tsubaki, Kiriyo Oono, Ayumu Onda, Kazumichi Yanagisawa, Tomohiko Mitani, Jun-ichi Azuma, Carbohydrate Polymers, 137, 10, 594–599 (2016)
261. Synthesis of D-A’-π-A Dyes via One-Pot Three-Component Suzuki-Miyaura Coupling and an Evaluation of the Photovoltaic Properties for Use in DSSCs. Shunsuke Irie, Shinichiro Fuse, Masato M. Maitani, Yuji Wada, Yuhei Ogomi, Shuzi Hayase, Tatsuo Kaiho, Hisashi Masui, Hiroshi Tanaka, Takashi Takahashi, Chemistry a European Journal, 22, 2185-2538 (2016)
260. Synthesis and Evaluation of Thiophene-based Organic Dyes Containing a Rigid and Non-Planar Donor with Secondary Electron Donors for Use in Dye-Sensitized Solar Cells, Shinichiro Fuse, Ryota Takahashi, Masato M. Maitani, Yuji Wada, Tatsuo Kaiho, Hiroshi Tanaka, Takashi Takahashi, European Journal of Organic Chemistry, 3, 508-517 (2015).
259. Microwave assisted synthesis of high-surface area WO3 particles decorated with mosaic patterns via hydrochloric acid treatment of Bi2W2O9. Fuminao Kishimoto, Dai Mochizuki, Masato M. Maitani, Eiichi Suzuki, Yuji Wada, RSC Advances, Royal Society of Chemistry, 5, 77839-77846 (2015).
258. Microwave-enhanced photocatalysis on CdS quantum dots-Evidence of acceleration of photoinduced electron transfer. Fuminao Kishimoto, Takashi Imai, Satoshi Fujii, Dai Mochizuki, Masato M. Maitani, Eiichi Suzuki, Yuji Wada, Scientific reports, Nature Publishing Group, 5, 11308 (2015).
257. Rapid Synthesis of Thiophene-Based, Organic Dyes for DSSCs via a One-Pot, Four-Component Coupling Approach. Keisuke Matsumura, Soichi Yoshizaki, Masato. M. Maitani, Yuji Wada, Yuhei Ogomi, Shuzi Hayase, Tatsuo Kaiho, Shinichiro Fuse, Hiroshi Tanaka, Takashi Takahashi, Chemistry A Europian Journal, 21, 9742-9747 (2015).
256. Catalytic reactions enhanced under microwave-induced local thermal non-equilibrium in a core–shell, carbon-filled zeolite@zeolite. Dai Mochizuki, Ryo Sasaki, Masato M. Maitani, Masaki Okamoto, Eiichi Suzuki, Yuji Wada, J. CATAL., Elsevier, 323, 1-9 (2015).
255. Precise Control of Photoinduced Electron Transfer in Alternate Layered Nanostructures of Titanium OxideTungsten Oxide. Dai Mochizuki, Kozue Kumagai, Masato M. Maitani, Eiichi Suzuki, Yuji Wada, J. Phys, Chem. C., 118(40), 22968-22974 (2014).
254. Synthesis of EDOT-containing organic dyes via one-pot, four component Suzuki Miyaura coupling and the evaluation of their photovoltaic properties. Shinichiro Fuse, Yuya Asai, Sakae Sugiyama, Keisuke Matsumura, Masato M. Maitani, Yuji Wada, Yuhei Ogomi, Shuzi Hayase, Tatsuo Kaiho, Takashi Takahashi, Tetrahedron, 70(45), 8690-8695 (2014).
253. Elucidating the structure-property relationship of donor-pi-acceptor dyes for DSSCs through rapid library synthesis via a one-pot procedure. Shinichiro Fuse, Sakae Sugiyama, Masato M. Maitani, Yuji Wada, Yuhei Ogomi, Shuzi Hayase, Ryuzi Katoh, Tatsuo Kaiho, Takashi Takahashi, Chemistry A European Journal, 20(34), 10685-10694 (2014).
252. Chemical Reaction under Highly Precise Microwave Irradiation. Satoshi Fujii, Hiroki Kujirai, Dai Mochizuki, Masato M. Maitani, Eiichi Suzuki, Yuji Wada, Noburo Mayama, The Journal of Microwave Power & Electromagnetic Energy, 48(2), 89-103 (2014).
251. Influence of Co-existing Species on Charge Transfer in Dye-sensitized Nanocrystalline Oxide Semiconductors in Aqueous Suspension for H2 Evolution under Visible Light. Masato M. Maitani, Conghong Zhan, Dai Mochizuki, Eiichi Suzuki, Yuji Wada, Appl. Catal. B., 147, 770-778 (2014).
250. Electron Transfer from Excited [Ir(2-phenylpyridyl)3]through a Coexisting Electron Relay in Zeolite. Chen Xu, Dai Mochizuki, Masato M. Maitani, Yuji Wada, Eur. J. Inorg. Chem., 2014, 1470-1476 (2014).
249. Visible-light-induced electron transfer between alternating stacked layers of tungstate and titanate mediated by excitation of intercalated dye molecules. Fuminao Kishimoto, Dai Mochizuki, Kozue Kumagai, Masato M. Maitani, Eiichi Suzuki, Yuji Wada, Phys. Chem Chem Phys., 16, 872-875 (2014).
248. Collaborational Effect of Heterolitic Layered Configuration for Enhancement of Microwave Heating. Masato M. Maitani, Tomoharu Inoue, Yohei Tsukushi, Niklas D. J. Hansen, Dai Mochizuki, Eiichi Suzuki, Yuji Wada, Chem. Commun., 49(92), 10841 (2013).
247. Facile synthesis of bimetallic Cu-Ag nanoparticles under microwave irradiation and their oxidation resistance. Zhi Chen, Dai Mochizuki, Masato M Maitani, Yuji Wada, NANOTECHNOLOGY, 24(26), 265602 (2013).
246. Rigidochromic Phosphorescence of [Ir(2-phenylpyridine)2(2,2′-bipyridine)]+ in C16TMA+: Layered Silicate and Its Förster Resonance Energy Transfer. Dai Mochizuki, Motohiko Sugiyama, Masato M. Maitani, Yuji Wada, European Journal of Inorganic Chemistry, 2013(13), 2324-2329 (2013).
245. Influence of Co-existing Alcohol on Charge Transfer of H2 Evolution under Visible Light with Dye-sensitized Nanocrystalline TiO2. Masato M. Maitani, Conghong Zhan, Dai Mochizuki, Eiichi Suzuki, Yuji Wada, Appl Catal B., 140-141, 406 (2013).
244. A Photostable Bi-Luminophore Pressure-Sensitive Paint Measurement System Developed with Mesoporous Silica Nanoparticles. Dai Mochizuki, Shinichi Tamura, Hiroaki Yasutake, Tomoharu Kataoka, Kazunori Mitsuo, Yuji Wada, Journal of Nanoscience and Nanotechnology, 13(4), 2777-2781 (2013).
243. Influence of Coexisting Electron Donor Species on Charge Transfer in Dye-Sensitized Nanocrystalline TiO2 for H2 Evolution under Visible Light. Masato M. Maitani, Conghong Zhan, Ching-Chun Huang, Chi-Chang Hu, Dai Mochizuki, Eiichi Suzuki, Yuji Wada, Bull. Chem. Soc. Jpn., 85(12), 1268-1276 (2012).
242. Local Thermal Nonequilibrium on Solid and Liquid Interface Generated in a Microwave Magnetic Field. Dai Mochizuki, Masashi Shitara, Masato Maitani, Yuji Wada, Chemistry Letters, 41(11), 1409-1411 (2012).
241. Sequential Coupling Approach to the Synthesis of Nickel(II) Complexes with N-aryl-2-amino Phenolates. Shinichiro Fuse, Hiroaki Tago, Masato M. Maitani, Yuji Wada, Takashi Takahashi, ACS Combinatorial Science, 14(10), 545-550 (2012).
240. Luminescence of ortho-Metalated Iridium Complexes Encapsulated in Zeolite Supercages by the Ship-in-a-Bottle Method. Chen Xu, Dai Mochizuki, Yuta Hashimoto, Takehisa Honda, Yasunori Tsukahara, Tomohisa Yamauchi, Yuji Wada, European Journal of Inorganic Chemistry, 2012(19), 3113-3120 (2012).
239. Alternate Layered Nanostructures of Metal Oxides by a Click Reaction. Dai Mochizuki, Kozue Kumagai, Masato M. Maitani, Yuji Wada, Angewandte Chemie International Edition, 51(22), 5452-5455 (2012).
238. Dye-sensitized H2 Evolution over TiO2 and SnO2 Nanoparticles Depending on Electron Donors. Conghong Zhan, Masato M. Maitani, Dai Mochizuki, Eiichi Suzuki, Yuji Wada, Chemistry Letters, 41(4), 423-424 (2012).
237. Enhancement of Photoexcited Charge Transfer by {001} Facet-Dominating TiO2 Nanoparticles. Masato M. Maitani, Keita Tanaka, Dai Mochizuki, Yuji Wada, The Journal of Physical Chemistry Letters, 2011(2), 2655-2659 (2011).
236. マイクロ波加熱による磁性ナノ粒子の精密構造制御 山内 智央, 塚原 保徳, 和田 雄二、粉体工学会誌、48(9), 625-631 (2011).
235. Measurements of Accurate Temperatures in the Microwave Reactors. Dai Mochizuki, Yuji Wada, Mini-Reviews in Organic Chemistry, 8(3), 294 (2011).
234. Quasi-gel-state Ionic Liquid Electrolyte with Alkyl-pyrazolium Iodide for Dye-Sensitized Solar Cells. Ishimaru, N., Kubo, W., Kitamura, T., Yanagida, S., Tsukahara, Y., Masato Maitani, Yuji Wada, Materials Science and Engineering B., 176(13), 996-1001 (2011).
233. Nucleation and Growth of Magnetic Ni-Co (core-shell) Nanoparticles in a One-Pot Reaction under Microwave Irradiation. T. Yamauchi, Y. Tsukahara, K. Yamada, T. Sakata, Y. Wada, Chemistry of Materials, 23(1), 75-84 (2011).
232. Magnetic Cu-Ni (core-shell) nanoparticles in a one-pot reaction under microwave irradiation. Yamauchi, T., Tsukahara, Y., Sakata, T., Mori, H., Yanagida, T., Kawai, T., Wada, Y., Nanoscale, 2(4), 515-523 (2010).
231. Significant enhancement in the power-conversion efficiency of chlorophyll co-sensitized solar cells by mimicking the principles of natural photosynthetic light-harvesting complexes. Wang, X. F., Koyama, Y., Kitao, O., Wada, Y., Sasaki, S., Tamiaki, H., Zhou, H. S., Biosensors and Bioelectronics, 25(8), 1970-1976 (2010).
230. In Situ Observation of Nonequilibrium Local Heating as an Origin of Special Effect of Microwave on Chemistry. Tsukahara, Y., Higashi, A., Yamauchi, T., Nakamura, T., Yasuda, M., Baba, A., Wada, Y., The Journal of Physical Chemistry C., 114(19), 8965-8970 (2010).
229. Absorption cross-section control of Eu(III) complexes for increase of amplified spontaneous emission excited by third harmonic of nanosecond Nd:YAG laser. Hasegawa, Y., Nakamura, K., Kawai, H., Yasuda, N., Tsukahara, Y., Wada, Y., Journal of Alloys and Compounds, 488(2), 578-581 (2009).
228. Microwave-assisted synthesis of monodisperse nickel nanoparticles using a complex of nickel formate with long-chain amine ligands. Yamauchi, T., Tsukahara, Y., Sakamoto, T., Kono, T., Yasuda, M., Baba, A., Wada, Y., Bulletin of the Chemical Society of Japan, 82(8), 1044-1051 (2009).
227. Barium ferrite powders prepared by microwave-induced hydrothermal reaction and magnetic property. Yamauchi Tomohisa, Tsukahara Yasunori, Sakata Takao, Mori Hirotaro, Chikata Tsukasa, Katoh Shunsaku, Wada Yuji, Journal of Magnetism and Magnetic Materials, 321(1), 8-11 (2009).
226. Electron Transport and Recombination in Dye-Sensitized TiO2 Solar Cells Fabricated without Sintering Process. Mori Shogo, Sunahara Kenji, Fukai Yosuke, Kanzaki Taisuke, Wada Yuji, Yanagida Shozo, Journal of Physical Chemistry C., 112(51), 20505-20509 (2008).
225. Enhanced debromination of brominated flame retardant plastics under microwave irradiation. Bhaskar Thallada, Hosokawa Asako, Muto Akinori, Tsukahara Yasunori, Yamauchi Tomohisa, Wada Yuji, Green Chemistry, 10 (7), 739-742 (2008).
224. Dependence of Photocurrent and Conversion Efficiency of Titania-Based Solar Cell on the Qy Absorption and One Electron-Oxidation Potential of Pheophorbide Sensitizer. Wang Xiao-Feng, Koyama Yasushi, Nagae Hiroyoshi, Wada Yuji, Sasaki Shin-ichi, Tamiaki Hitoshi, Journal of Physical Chemistry C., 112(11), 4418-4426 (2008).
223. Microwave-Irradiated Transition-Metal Catalysis: Rapid and Efficient Dehydrative Carbon?Carbon Coupling of Alcohols with Active Methylenes. Srinivasarao Arulananda Babu, Makoto Yasuda, Yasunori Tsukahara, Tomohisa Yamauchi, Yuji Wada, Akio Baba, Synthesis, 11 , 1717-1724 (2008).
222. Improvement of lasing properties of europium (III) complexes by increase of emission quantum yield. Nakamura Kazuki, Hasegawa Yasuchika, Kawai Hideki, Yasuda Naoki, Tsukahara Yasunori, Wada Yuji, Thin Solid Films, 516(9), 2376-2381 (2008).
221. Functionalization of multi-walled carbon nanotubes realized by microwave-driven chemistry inducing dispersibility in liquid media. Tsukahara Yasunori, Yamauchi Tomohisa, Kawamoto Tadashi, Wada Yuji, Bulletin of the Chemical Society of Japan, 81(3), 387-392 (2008).
220. Multi-color photoluminescence from multi-components in zeolite cavity. Tsukahara Yasunori, Sato Mutsuko, Katagiri Shinya, Honda Takehisa, Nakamura Kazuki, Wada Yuji, Journal of Alloys and Compounds, 451(1-2), 194-197 (2008).
219. Luminescent polymer film containing tetranuclear Eu(III) complex as temperature-sensing device. Tsukahara Yasunori, Yamauchi Tomohisa, Kawamoto Tadashi, Wada Yuji, Journal of Alloys and Compounds, 453(1-2), L1-L3 (2008).
218. Evidence for encaging luminescent guest molecules in the inner cages of zeolite host. Kataoka Tomoharu, Mozer Attila J., Tsukahara Yasunori, Yamauchi Tomohisa, Wada Yuji, Bulletin of the Chemical Society of Japan, 80(12), 2303-2312 (2007).
217. Effects of organic acids on the size-controlled synthesis of rutile TiO2 nanorods. Jiang Yinhua, Yin Hengbo, Sun Yueming, Liu Hui, Lei Lixu, Chen Kangmin, Wada Yuji, Applied Surface Science, 253(23), 9277-9282 (2007).
216. Dye-Sensitized TiO2 Solar Cells Using Imidazolium-Type Ionic Liquid Crystal Systems as Effective Electrolytes. Yamanaka Noriyo, Kawano Ryuji, Kubo Wataru, Masaki Naruhiko, Kitamura Takayuki, Wada Yuji, Watanabe Masayoshi, Yanagida Shozo, Journal of Physical Chemistry B., 111(18), 4763-4769 (2007).
215. Enhanced Lasing Properties of Dissymmetric Eu(III) Complex with Bidentate PhosphineLigands. Nakamura Kazuki, Hasegawa Yasuchika, Kawai Hideki, Yasuda Naoki, Kanehisa Nobuko, Kai Yasushi, Nagamura Toshihiko, Yanagida Shozo, Wada Yuji, J. Phys. Chem. A., 111(16), 3029-3037 (2007).
214. Preparation of luminescent nanosized NaEu(MoO4)2 incorporated in amorphous matrix originated from zeolite. Suzuki Shigeru, Ryo Munenori, Yamamoto Tetsushi, Sakata Takao, Yanagida Shozo, Wada Yuji, Journal of Materials Science, 42(15), 5991-5998 (2007).
213. Energy-transfer mechanism in photoluminescent terbium(III) complexes causing their temperature-dependence. Katagiri Shinya, Tsukahara Yasunori, Hasegawa Yasuchika, Wada Yuji, Bulletin of the Chemical Society of Japan, 80(8), 1492-1503 (2007).
212. Effects of organic modifiers on the size-controlled synthesis of hydroxyapatite nanorods. Wang Aili, Yin Hengbo, Liu Dong, Wu Huixiong, Wada Yuji, Ren Min, Xu Yiqing, Jiang Tingshun, Cheng Xiaonong, Applied Surface Science, 253(6), 3311-3316 (2007).
211. Nanohybrid polymer prepared by successive polymerization of methacrylate monomer containing silver nanoparticles in situ prepared under microwave irradiation. Wada Yuji, Kobayashi Taishi, Yamasaki Hayahide, Sakata Takao, Hasegawa Noriaki, Mori Hirotaro, Tsukahara Yasunori, Polymer, 48(6), 1441-1444 (2007).
210. Size-controlled synthesis of hydroxyapatite nanorods by chemical precipitation in the presence of organic modifiers. Wang Aili, Liu Dong, Yin Hengbo, Wu Huixiong, Wada Yuji, Ren Min, Jiang Tingshun, Cheng Xiaonong, Xu Yiqing, Materials Science & Engineering C: Biomimetic and Supramolecular Systems, 27(4), 865-869 (2007).
209. Investigation of the Effect of Alkyl Chain Length on Charge Transfer at TiO2/Dye/Electrolyte Interface. Mori Shogo N., Kubo Wataru, Kanzaki Taisuke, Masaki Naruhiko, Wada Yuji, Yanagida Shozo, Journal of Physical Chemistry C, 111(8), 3522-3527 (2007).
208. Gas phase hydrogenation of maleic anhydride to -butyrolactone by Cu-Zn-Ti catalysts. Hu Tongjie, Yin Hengbo, Zhang Ruichao, Wu Huixiong, Jiang Tingshun, Wada Yuji, Catalysis Communications, 8(2), 193-199 (2007).
207. Mica coated by direct deposition of rutile TiO2 nanoparticles and the optical properties. Ren Min, Yin Hengbo, Wang Aili, Jiang Tingshun, Wada Yuji, Materials Chemistry and Physics, 103(2-3), 230-234 (2007).
206. Preparation of monodispersed Cu nanoparticles by microwave-assisted alcohol reduction. Nakamura Takashi, Tsukahara Yasunori, Sakata Takao, Mori Hirotaro, Kanbe Yumi, Bessho Hisami, Wada Yuji, Bulletin of the Chemical Society of Japan, 80(1), 224-232 (2007).
205. Preparation of Ag core-Cu shell nanoparticles by microwave-assisted alcohol reduction process. Nakamura Takashi, Tsukahara Yasunori, Yamauchi Tomohisa, Sakata Takao, Mori Hirotaro, Wada Yuji, Chemistry Letters, 36(1),154-155 (2007).
204. A dye-sensitized solar cell using pheophytin-carotenoid adduct: Enhancement of photocurrent by electron and singlet-energy transfer and by suppression of singlet-triplet annihilation due to the presence of the carotenoid moiety. Wang Xiao-Feng, Koyama Yasushi, Wada Yuji, Sasaki Shin-ichi, Tamiaki Hitoshi, Chemical Physics Letters, 439(1-2), 115-120 (2007).
203. Fabrication of dye-sensitized solar cells using chlorophylls c1 and c2 and their oxidized forms c'1 and c'2 from Undaria pinnatifida (Wakame). Wang Xiao-Feng, Zhan Cong-Hong, Maoka Takashi, Wada Yuji, Koyama Yasushi, Chemical Physics Letters, 447(1-3), 79-85 (2007).
202. The First Observation of the Magnetic Circular Dichrosim in EuS Nanocrystals. Y. Tsukahara, T. Kataoka, Y. Hasegawa, S. Kaizaki, Y. Wada, J. Alloy Comp., 408-412, 203-206 (2006).
2006年以降省略 総説・解説(2006年以降) 望月大、岸本史直、和田雄二、「無機酸化物ナノ構造体を用いた光誘起電荷分離の制御」、ゼオライト学会誌、2016, 33, 4. 9. 遷移金属酸化物ナノシートの金属錯体修飾による光触媒能の発現 岸本史直、望月大、和田雄二、月間ケミカルエンジニヤリング、 61, 11 (2016).
8. 無機酸化物ナノ構造体を用いた光誘起電荷分離の制御 望月大、岸本史直、和田雄二、ゼオライト学会誌、33, 4 (2016).
7. マイクロ波を用いた材料精密形成技術 和田雄二、米谷真人、望月大、ファインセラミックスレポート、32(4), 148-152 (2014).
6. マイクロ波化学を用いた金属ナノ粒子の精密合成 和田雄二、望月大、塗装工学、49(6), 202-206 (2014).
5. マイクロ波加熱の化学反応への適用:貴金属ナノ粒子の合成 和田雄二、The Chemical Times、230(4), 7-11 (2013).
4. マイクロ波を利用するグリーン&サステイナブル化学プロセス 和田雄二、望月大、ペトロテック、36(8), 626-632 (2013).
3. マイクロ波加熱による迅速ナノ構造薄膜形成と機能材料への展開 米谷真人、和田雄二、月刊「ケミカルエンジニヤリング」、58(11), 1 (2013).
2. 光を操るナノハイブリッド系-分子・イオンの光励起状態緩和過程の制御 和田雄二、望月大、触媒、52(3) (2010).
1. マイクロ波を利用した化学反応 : 何が得られるか 和田雄二、望月大、ペトロテック、31(8), 552-558 (2008).
著書(2006年以降) 16. Chemical reactions on the interfaces of solids under microwaves, Yuji Wada, Dai Mochizuki, Taishi Ano, Masato M. Maitani, Shuntaro Tsubaki, Naoto Haneishi, 113–125, 2017.
15. Microwave-assisted water extraction of carbohydrates from unutilized biomass, Shuntaro Tsubaki, Ayumu Onda, Masanori Hiraoka, Satoshi Fujii, Jun-ichi Azuma, Yuji Wada, 199–219, 2017.
14. Microwave-Assisted Hydrothermal Processing of Seaweed Biomass, Shuntaro Tsubaki, Ayumu Onda, Tadaharu Ueda, Masanori Hiraoka, Satoshi Fujii, Yuji Wada, 443–460, 2017.
13. Biomass Fractionation Technologies for a Lignocellulosic Feedstock Based Biorefinery, Microwave-induced biomass fractionation, Shuntaro Tsubaki, Jun-ichi Azuma, Takeo Yoshimura, Masato Maitani, Eiichi Suzuki, Satoshi Fujii, Yuji Wada, 103–126, 2016.
12. オゾンの光化学的発生と環境, 光化学の辞典, 和田雄二, 280-281, 朝倉出版, 2014.
11. 迅速加熱、内部加熱、物質選択的加熱などを可能とするマイクロ波が拓く近未来 マイクロ波を使った化学/材料科学の新世界, RFワールド, 和田雄二, 25, 8-20, 2014.
10. マイクロ波反応, 第7版化学便覧 応用化学編, 和田雄二, 丸善出版, 2014.
9. New Scope to Microwave Special Effects On Chemical Reactions-Fundamental And Applications, Proceedings of the 2nd Global Congress on Microwave Energy Applications, Yuji Wada, Hirotsugu Takizawa, The Microwave Working Group, Ltd., 2013.
8. マイクロ波を用いた機能性無機化合物ナノ粒子の精密合成, 微粒子材料-未来を拓く機能材料, 和田雄二, 89-126, エヌ・ティー・エス, 2013
7. Precisely Controlled Synthesis of Metal Nanoparticles under Microwave Irradiation, Microwaves in Nanoparticle Synthesis, Yuji Wada, Zhi Chen, Dai Mochizuki, 145-183, Wiley-VCH, 2013.
6. マイクロ波加熱による固体表面での反応促進, 触媒の設計・反応制御 事例集, 和田雄二, 295-303, 技術情報協会, 2013.
5. 電磁波理論によるマイクロ波と物質との相互作用-マイクロ波化学反応機構の構築への序章, マイクロ波化学プロセス技術 II, 佐藤啓、和田雄二, 66-80, シーエムシー出版, 2013.
4. マイクロ波化学における特殊効果, マイクロ波化学プロセス技術 II, 和田雄二, 51-65, シーエムシー出版, 2013.
3. なぜ物質製造・物質変換にマイクロ波なのか, 電気学会誌, 和田雄二、鈴木榮一、佐藤元泰, 132(1), 8-9, 2012.
2. マイクロ波駆動化学を用いた金属ナノ粒子合成, ナノ粒子の創製と応用展開, 和田雄二, フロンティア出版, 2008.
1. 次世代発光素子~希土類発光素子のホストとしてのナノゼオライトをホストとする希土類イオン発光系~, ディスプレイと照明の材料技術~液晶・プラズマ・有機EL・LED・プロジェクター~, 和田雄二、望月大, 41-51, シーエムシー出版, 2010.
特許(2006年以降) 10. 積層膜とその製造方法、および積層膜の焼成装置 米谷真人、和田雄二: 国立大学法人東京工業大学, 特願2013-045675, 2013/3/7
9. 酸化チタン膜、酸化チタン前駆体液、酸化チタン膜の製造方法、酸化チタン積層膜、及び色素増感型光電変換素子 米谷真人、田中恵多、和田雄二: 国立大学法人東京工業大学, 特願2011-282584, 2012/12/26
8. 炭化水素の製造方法 和田雄二、鈴木榮一、望月大、米谷真人、君島拓郎、野本英朗、樋口雅一、河野巧、井上修治: 国立大学法人東京工業大学、新日鉄住金化学株式会社, 特願2013-503621, 2012/3/9, 特開(再表)2012/121366, 2014/7/17
7. 金属ナノ粒子及びその製造方法並びに導電性インク 和田雄二、陳智、望月大、内田博、篠崎研二、冨田浩幸: 国立大学法人東京工業大学、昭和電工株式会社, 特願2012-051636, 2012/3/8, 特開2013-185213, 2013/9/19
6. 色素増感型光電変換素子用の非平面型構造を有する完全有機色素化合物、およびそれを用いた光電変換素子 海宝龍夫、高橋孝志、布施新一郎、和田雄二、米谷真人、早瀬修二、尾込裕平、伊牟田聡: 関東天然瓦斯開発、国立大学法人東京工業大学、国立大学法人九州工業大学、株式会社ケムジェネシス, 特願2012-045915, 2012/3/1
5. 色素増感型光電変換素子用の高活性完全有機色素化合物、およびそれを用いた光電変換素子 海宝龍夫、高橋孝志、布施新一郎、和田雄二、米谷真人、早瀬修二、尾込裕平、伊牟田聡: 関東天然瓦斯開発、国立大学法人東京工業大学、国立大学法人九州工業大学、株式会社ケムジェネシス, 特願2012-045914, 2012/3/1, 特開2013-181108 2013/9/12
4. マイクロ波加熱装置及びマイクロ波加熱方法 和田雄二、望月大、内田博、冨田浩幸、篠崎研二、竹内和彦、長畑律子、原中正行: 国立大学法人東京工業大学、昭和電工株式会社、独立行政法人産業技術総合研究所, 特願2011-244284, 2011/11/8, 特開2013-101808, 2013/5/23
3. マイクロ波加熱による金属微粒子の製造 和田雄二、久保和重、國井勝之、杉本章司: 国立大学法人東京工業大学、四国計測工業株式会社, 特願2011-156690, 2011/7/15, 特開2013-023699, 2013/2/4
2. 発光特性の劣化を抑えた複合感圧塗料 満尾和徳、和田雄二、望月大: 独立行政法人 宇宙航空研究開発機構, 特願2009-210616, 2009/9/11, 特開2011-57899, 2011/3/24
1. 金属酸化物からマイクロ波照射により金属微粒子を製造する方法 和田雄二、國井勝之、久保和重、杉本章司: 国立大学法人東京工業大学、四国計測工業株式会社, 特願2009-155455, 2009/6/30, 特開2011-012290, 2011/1/20, 特許第5499309号, 2014/3/20
304.Yuki Sasahara, Koki Kanatani, Masayuki Matsuhisa, Yuji Wada, Ryota Shimizu, Norimasa Nishiyama, Taro Hitosugi. Impact of Surface Roughness on Recrystallization of an α-Al2O3(001) Single Crystal to α-AlO(OH) Diaspore Microcrystals, ACS Omega, 5, 23520, Sept. 2020.
303.Shuntaro Tsubaki, Kosuke Furusawa, Hidetaka Yamada, Tsuguhiro Kato, Takayuki Higashii, Satoshi Fujii, Yuji Wada. Insights into the dielectric-heating-enhanced regeneration of CO2-rich aqueous amine solutions, ACS Sustainable Chemistry & Engineering, vol. 8, No. 36, pp. 13593-13599, Aug. 2020.
302.Taishi Ano, Shuntaro Tsubaki, Anyue Liu, Masayuki Matsuhisa, Satoshi Fujii, Ken Motokura, Wang-Jae Chun, Yuji Wada. Probing the temperature of supported platinum nanoparticles under microwave irradiation by in situ and operando XAFS, July 2020.
301.Masayuki Matsuhisa, Shuntaro Tsubaki, Fuminao Kishimoto, Satoshi Fujii, Iku Hirano, Masahiro Horibe, Eiichi Suzuki, Ryota Shimizu, Taro Hitosugi, Yuji Wada. Hole Accumulation at the Grain Boundary Enhances Water Oxidation at α-Fe2O3 Electrodes under Microwave Electric Field, The Journal of Physical Chemistry C, 124, 7749-7759, Mar. 2020.
300.Naomi Inazu, Eiichi Suzuki, Satoshi Fujii, Shuntaro Tsubaki, Yuji Wada. A facile formation of vanadium(0) by the reduction of vanadium pentoxide pelletized with magnesium oxide enabled by microwave irradiation, ChemistrySelect, Vol. 5, pp. 2949-2953, Mar. 2020.
299.Satoshi Fujii, Eiichi Suzuki, Naomi Inazu, Shuntaro Tsubaki, Jun Fukushima, Hirotsugu Takizawa, Yuji Wada. Microwave irradiation process for Al–Sc alloy production, Scientific Reports, Vol. 10, pp. 2689, Feb. 2020.
298.Shuntaro Tsubaki, Tomoki Matsuzawa, Eiichi Suzuki, Satoshi Fujii, Yuji Wada. Operando Raman spectroscopy of the microwave-enhanced catalytic dehydration of 2-propanol by WO3, Industrial and Engineering Chemistry Research, Vol. 59, No. 5, pp. 1781-1788, Jan. 2020.
297.Taishi Ano, Masato Maitani, Yuka Sato, Shuntaro Tsubaki, Yuji Wada. Microwave heating of percolated Pt metal nanoparticles supported on Al2O3 substrate, Processes, Vol. 8, No. 1, pp. 72, Jan. 2020.
296.Heeyoel Baek, Kei-ichiro Kashimura, Takashi Fujii, Shuntaro Tsubaki, Yuji Wada, Shigenori Fujikawa, Takuma Sato, Yasuhiro Uozumi, Yoichi M. A. Yamada. Production of bio hydrofined diesel, jet fuel, and carbon monoxide from fatty acids using a silicon nanowire array-supported rhodium nanoparticle catalyst under microwave conditions, ACS Catalysis, Vol. 10, pp. 2148-2156, Jan. 2020.
295.Pablo. B. Sánchez, Shuntaro Tsubaki, Agilo H. Pádua, Yuji Wada. Kinetic analysis of microwave-enhanced cellulose dissolution in ionic solvents, Physical Chemistry Chemical Physics, Vol. 22, pp. 1003-1010, Nov. 2019.
294.Shuntaro Tsubaki, Yuki Nakasako, Noriko Ohara, Masateru Nishioka, Satoshi Fujii, Yuji Wada. Ultra-fast pyrolysis of lignocellulose using highly tuned microwaves: Synergistic effect of cylindrical cavity resonator and frequency-auto-tracking solid-state microwave generator, Green Chemistry, Vol. 22, pp. 342-351, Oct. 2019.
293.Fuminao Kishimoto, Masayuki Matsuhisa, Takashi Imai, Dai Mochizuki, Shuntaro Tsubaki, Masato M. Maitani, Eiichi Suzuki, Yuji Wada. Remote Control of Electron Transfer Reaction by Microwave Irradiation: Kinetic Demonstration of Reduction of Bipyridine Derivatives on Surface of Nickel Particle, J. Phys. Chem. Lett., Vol. 2019, No. 10, pp. 3390-3394, May 2019.
292.Shuntaro Tsubaki, Tomoki Matsuzawa, Satoshi Fujii, Ei-ichi Suzuki, Hiroshi Kanamori, Takeshi Hoshino, Satoshi Hosoda, Yuji Wada. In situ Raman monitoring of dielectric-heating-enhanced freeze-drying under different electromagnetic wave frequencies, RSC Advances, Vol. 2019, No. 9, pp. 9001-9005, Mar. 2019.
291.Masato M. Maitani, Akito Tateyama, Pablo P. Boix, Guifang Han, Akio Nitta, Bunsho Ohtani, Nripan Mathews, Yuji Wada. Effects of energetics with {001} facet-dominant anatase TiO2 scaffold on electron transport in CH3NH3PbI3 perovskite solar cells, Electrochimica Acta, Vol. 3, pp. 445-454, Mar. 2019.
290.Naoto Haneishi, Shuntaro Tsubaki, Eriko Abe, Masato M. Maitani, Suzuki Ei-ichi, Satoshi Fujii, Jun Fukushima, Hirotsugu Takizawa, Yuji Wada. Enhancement of Fixed-bed Flow Reactions under Microwave Irradiation by Local Heating at the Vicinal Contact Points of Catalyst Particles, Scientific Reports, Vol. 9, No. 1, pp. 222, Jan. 2019.
289.Shuntaro Tsubaki, Shogo Hayakawa, Tadaharu Ueda, Satoshi Fujii, Ei-ichi Suzuki, Jie Zhang, Alan Bond, Yuji Wada. Radio frequency alternating electromagnetic field enhanced tetraruthenium polyoxometalate electrocatalytic water oxidation, Chemical Communications, Vol. 55, No. 8, pp. 1032-1035, Jan. 2019.
288. Fuminao Kishimoto, Dai Mochizuki, Masato M. Maitani, Eiichi Suzuki, Yuji Wada. Construction of Highly Hierarchical Layered Structure Consisting of Titanate Nanosheets, Tungstate Nanosheets, Ru(bpy)32+, and Pt(terpy) for Vectorial Photoinduced Z-Scheme Electron Transfer, Appl. Mater Interfaces, Vol. 2018, No. 10, pp. 37150-37162, Oct. 2018.
287. Shuntaro Tsubaki, Shogo Hayakawa, Tadaharu Ueda, Tomohiko Mitani, Ei-ichi Suzuki, Satoshi Fujii, Yuji Wada. Proton-enhanced dielectric properties of polyoxometalates in water under radio-frequency electromagnetic waves, Materials, Vol. 11, No. 7, pp. 1202, July 2018.
286. Ryota Yamano, Yu Shibata, Fuminao Kishimoto, Shuntaro Tsubaki, Yuji Wada, Ken Tanaka. Reversible Mechanochlomic Luminescence of a Heteroatom-Free Helically Chiral Hydrocarbon, Chem. Lett., vol. 47, pp. 1228-1231, July 2018.
285. Yuji Wada, Shuntaro Tsubaki, Masato M. Maitani, Satoshi Fujii, Fuminao Kishimoto, Naoto Haneishi. Physical Insight to Microwave Spceial Effects: Nonequilibrium Local Heating and Acceleration of Electron Transfer, Journal of The Japan Petroleum Institute, The Japan Petroleum Institute, Vol. 61, (2), pp. 98-105, Mar. 2018.
284. Effect of Aspect Ratio on the Permittivity of GraphiteFiber in Microwave Heating. Jun Fukushima, Shuntaro Tsubaki, Tomoki Matsuzawa, Keiichiro Kashimura, Tomohiko Mitani, Tomoaki Namioka, Satoshi Fujii, Naoki Shinohara, Hirotsugu Takizawa, Yuji Wada, Materials, 11, 169 (2018).
283. D–π–A dyes containing novel hydantoin anchoring groups for dye-sensitized solar cells. H. Masui, M. M. Maitani, S. Fuse, A. Yamamura, Y. Ogomi, S. Hayase, T. Kaiho, H. Tanaka, Y. Wada, T. Takahashi, Asian Journal of Organic Chemistry, 7, 458–464 (2018).
282. Acceleration of Water Electrolysis by Accumulation of Microwave Energy at a Pt Disk Electrode. Fuminao Kishimoto, Kah Hon Leong, Shinichiro Kawamura, Naoto Haneishi, Shuntaro Tsubaki, Yuji Wada, Chemistry Letters, 46, 1593–1596 (2017).
281. Technology for Materials Creation Using Microwaves: Use of Microwaves in Nano to Centimeter Scale. Yuji Wada, Satoshi Fujii, The journal of the Institute of Electronics, Information and Communication Engineers, 100, 1285–1289 (2017).
280. Effects of {001} Facet of Anatase TiO2 Single-crystalline Nanosheets. Masato M. Maitani, Keita Tanaka, Hirokazu Satou, Yuji Wada, Chemistry Letters, 46, 1624–1627 (2017).
279. Effects of {001} Facet of Anatase TiO2 Single-crystalline Nanosheets on Photoexcited Electron Transfer from Near-Infrared Dye-Sensitizer. Masato M. Maitani, Keita Tanaka, Hirokazu Satou, Yuji Wada, Chemistry Letters (2017).
278. Smelting of Scandium by Microwave Irradiation. Satoshi Fujii, Shuntaro Tsubaki, Naomi Inazu, Eiichi Suzuki, Yuji Wada, Materials, 10, 1138 (2017).
277. Electromagnetic and Heat-Transfer Simulation of the Catalytic Dehydrogenation of Ethylbenzene under Microwave Irradiation. Naoto Haneishi, Shuntaro Tsubaki, Masato M. Maitani, Eiichi Suzuki, Satoshi Fujii, Yuji Wada, Industrial and Engineering Chemistry Research, 56, 7685–7692 (2017).
276. Electron Transport Properties in Dye-sensitized Solar Cells with {001} Facet-Dominant TiO 2 Nanoparticles. Masato M. Maitani, Keita Tanaka, Qing Shen, Yuji Wada, Physical Chemistry Chemical Physics, 19, 22129–22140 (2017).
275. Crystalline orientation control using self-assembled TiO2 nanosheet scaffold to improve CH3NH3PbI3 perovskite solar cells. Masato M. Maitani, Hirokazu Satou, Aoi Ohmura, Shuntaro Tsubaki, Yuji Wada, Japanese Journal of Applied Physics, 56, 08MC17 (2017).
274. Hetero-epitaxial growth control of single-crystalline anatase TiO2 nanosheets predominantly exposing the {001} facet on oriented crystalline substrates. Masato Maitani, Keita Tanaka, Hirokazu Satou, Takayoshi OSHIMA, A. Ohtomo, Yuji Wada, CrystEngComm (2017).
273. Self-oriented TiO2 nanosheets in films for enhancement of electron transport in nanoporous semiconductor networks. M. M. Maitani, 徐 晨, 橋本 啓太郎, Y. Ueda, Y. Wada, Mater. Chem. Front., 1, 2094–2102 (2017).
272. Microwave Application to Efficient Annealing Process of CH3NH3PbI3 Perovskite Crystalline Films. Masato M. MAITANI, Daikichi ISO, Junbeom KIM, Shuntaro TSUBAKI, Yuji WADA, Electrochemistry, 85, 236–240 (2017).
271. Smelting Magnesium Metal using a Microwave Pidgeon Method. Yuji Wada, Satoshi Fujii, Eiichi Suzuki, Masato M. Maitani, Shuntaro Tsubaki, Satoshi Chonan, Miho Fukui, Naomi Inazu, Scientific Reports, 7, 46512 (2017).
270. Microwave Effects on Co-Pi Co-catalysts Deposited on α-Fe2O3 for Application to Photocatalytic Oxygen Evolution. Masato Maitani, Takuya Yamada, Hisanori Mashiko, Kohei Yoshimatsu, Takayoshi OSHIMA, A. Ohtomo, Yuji Wada, ACS Applied Materials & Interfaces (2017).
269. Injection-Locked Magnetron Using a Cross-Domain Analyzer. Satoshi Fujii, Masato M. Maitani, Eiichi Suzuki, Satoshi Chonan, Miho Fukui, Yuji Wada, IEEE Microwave and Wireless Components Letters, 26, 966 -968 (2016).
268. Enhancement of anodic current attributed to oxygen evolution on α-Fe2O3 electrode by microwave oscillating electric field. Fuminao Kishimoto, Masayuki Matsuhisa, Shinichiro Kawamura, Satoshi Fujii, Shuntaro Tsubaki, Masato M. Maitani, Eiichi Suzuki, Yuji Wada, Scientific Reports, 6, 35554 (2016).
267. Specific Electronic Absorptions of the Alternate Layered Nanostructures of Two Metal Oxides Synthesized via Thiol-ene Click Reaction. Fuminao Kishimoto, Taishi Ano, Dai Mochizuki, Takayuki. Terauchi, Masato M. Maitani, Eiichi Suzuki, Yuji Wada, RSC Adv., 6, 73830 -73841 (2016).
266. Distance-depending Photoinduced Electron Transfer at Two-Dimensional Interface in Alternate Stacked Structures of Tantalate Nanosheets and Tungstate Nanosheets. Ano Taishi, Kishimoto Fuminao, Mochizuki Dai, Tsubaki Shuntaro, Maitani Masato, Suzuki Eiichi, Wada Yuji, Chem Lett, 45, 1111-1113, (2016).
265. In situ temperature measurements of reaction spaces under microwaves using photoluminescent probes. Taishi Ano, Fuminao Kishimoto, Ryo Sasaki, Shuntaro Tsubaki, Masato M. Maitani, Eiichi Suzuki, Yuji Wada, Physical Chemistry Chemical Physics, 18, 13173-13179 (2016)
264. Low-temperature annealing of mesoscopic TiO2 films by interfacial microwave heating applied to efficiency improvement of dye-sensitized solar cells. Masato M. Maitani, Yohei Tsukushi, Niklas D.J. Hansen, Yuka Sato, Dai Mochizuki, Eiichi Suzuki, Yuji Wada, Solar Energy Materials & Solar Cells, 147, 198–202, (2016)
263. Microwave-assisted hydrothermal extraction of sulfated polysaccharides from Ulva spp. and Monostroma latissimum, Shuntaro Tsubaki, Kiriyo Oono, Masanori Hiraoka, Ayumu Onda, Tomohiko Mitani, Food Chemistry, 210, 311–316, (2016).
262. Effects of ionic conduction on hydrothermal hydrolysis of corn starch and crystalline cellulose induced by microwave irradiation, Shuntaro Tsubaki, Kiriyo Oono, Ayumu Onda, Kazumichi Yanagisawa, Tomohiko Mitani, Jun-ichi Azuma, Carbohydrate Polymers, 137, 10, 594–599 (2016)
261. Synthesis of D-A’-π-A Dyes via One-Pot Three-Component Suzuki-Miyaura Coupling and an Evaluation of the Photovoltaic Properties for Use in DSSCs. Shunsuke Irie, Shinichiro Fuse, Masato M. Maitani, Yuji Wada, Yuhei Ogomi, Shuzi Hayase, Tatsuo Kaiho, Hisashi Masui, Hiroshi Tanaka, Takashi Takahashi, Chemistry a European Journal, 22, 2185-2538 (2016)
260. Synthesis and Evaluation of Thiophene-based Organic Dyes Containing a Rigid and Non-Planar Donor with Secondary Electron Donors for Use in Dye-Sensitized Solar Cells, Shinichiro Fuse, Ryota Takahashi, Masato M. Maitani, Yuji Wada, Tatsuo Kaiho, Hiroshi Tanaka, Takashi Takahashi, European Journal of Organic Chemistry, 3, 508-517 (2015).
259. Microwave assisted synthesis of high-surface area WO3 particles decorated with mosaic patterns via hydrochloric acid treatment of Bi2W2O9. Fuminao Kishimoto, Dai Mochizuki, Masato M. Maitani, Eiichi Suzuki, Yuji Wada, RSC Advances, Royal Society of Chemistry, 5, 77839-77846 (2015).
258. Microwave-enhanced photocatalysis on CdS quantum dots-Evidence of acceleration of photoinduced electron transfer. Fuminao Kishimoto, Takashi Imai, Satoshi Fujii, Dai Mochizuki, Masato M. Maitani, Eiichi Suzuki, Yuji Wada, Scientific reports, Nature Publishing Group, 5, 11308 (2015).
257. Rapid Synthesis of Thiophene-Based, Organic Dyes for DSSCs via a One-Pot, Four-Component Coupling Approach. Keisuke Matsumura, Soichi Yoshizaki, Masato. M. Maitani, Yuji Wada, Yuhei Ogomi, Shuzi Hayase, Tatsuo Kaiho, Shinichiro Fuse, Hiroshi Tanaka, Takashi Takahashi, Chemistry A Europian Journal, 21, 9742-9747 (2015).
256. Catalytic reactions enhanced under microwave-induced local thermal non-equilibrium in a core–shell, carbon-filled zeolite@zeolite. Dai Mochizuki, Ryo Sasaki, Masato M. Maitani, Masaki Okamoto, Eiichi Suzuki, Yuji Wada, J. CATAL., Elsevier, 323, 1-9 (2015).
255. Precise Control of Photoinduced Electron Transfer in Alternate Layered Nanostructures of Titanium OxideTungsten Oxide. Dai Mochizuki, Kozue Kumagai, Masato M. Maitani, Eiichi Suzuki, Yuji Wada, J. Phys, Chem. C., 118(40), 22968-22974 (2014).
254. Synthesis of EDOT-containing organic dyes via one-pot, four component Suzuki Miyaura coupling and the evaluation of their photovoltaic properties. Shinichiro Fuse, Yuya Asai, Sakae Sugiyama, Keisuke Matsumura, Masato M. Maitani, Yuji Wada, Yuhei Ogomi, Shuzi Hayase, Tatsuo Kaiho, Takashi Takahashi, Tetrahedron, 70(45), 8690-8695 (2014).
253. Elucidating the structure-property relationship of donor-pi-acceptor dyes for DSSCs through rapid library synthesis via a one-pot procedure. Shinichiro Fuse, Sakae Sugiyama, Masato M. Maitani, Yuji Wada, Yuhei Ogomi, Shuzi Hayase, Ryuzi Katoh, Tatsuo Kaiho, Takashi Takahashi, Chemistry A European Journal, 20(34), 10685-10694 (2014).
252. Chemical Reaction under Highly Precise Microwave Irradiation. Satoshi Fujii, Hiroki Kujirai, Dai Mochizuki, Masato M. Maitani, Eiichi Suzuki, Yuji Wada, Noburo Mayama, The Journal of Microwave Power & Electromagnetic Energy, 48(2), 89-103 (2014).
251. Influence of Co-existing Species on Charge Transfer in Dye-sensitized Nanocrystalline Oxide Semiconductors in Aqueous Suspension for H2 Evolution under Visible Light. Masato M. Maitani, Conghong Zhan, Dai Mochizuki, Eiichi Suzuki, Yuji Wada, Appl. Catal. B., 147, 770-778 (2014).
250. Electron Transfer from Excited [Ir(2-phenylpyridyl)3]through a Coexisting Electron Relay in Zeolite. Chen Xu, Dai Mochizuki, Masato M. Maitani, Yuji Wada, Eur. J. Inorg. Chem., 2014, 1470-1476 (2014).
249. Visible-light-induced electron transfer between alternating stacked layers of tungstate and titanate mediated by excitation of intercalated dye molecules. Fuminao Kishimoto, Dai Mochizuki, Kozue Kumagai, Masato M. Maitani, Eiichi Suzuki, Yuji Wada, Phys. Chem Chem Phys., 16, 872-875 (2014).
248. Collaborational Effect of Heterolitic Layered Configuration for Enhancement of Microwave Heating. Masato M. Maitani, Tomoharu Inoue, Yohei Tsukushi, Niklas D. J. Hansen, Dai Mochizuki, Eiichi Suzuki, Yuji Wada, Chem. Commun., 49(92), 10841 (2013).
247. Facile synthesis of bimetallic Cu-Ag nanoparticles under microwave irradiation and their oxidation resistance. Zhi Chen, Dai Mochizuki, Masato M Maitani, Yuji Wada, NANOTECHNOLOGY, 24(26), 265602 (2013).
246. Rigidochromic Phosphorescence of [Ir(2-phenylpyridine)2(2,2′-bipyridine)]+ in C16TMA+: Layered Silicate and Its Förster Resonance Energy Transfer. Dai Mochizuki, Motohiko Sugiyama, Masato M. Maitani, Yuji Wada, European Journal of Inorganic Chemistry, 2013(13), 2324-2329 (2013).
245. Influence of Co-existing Alcohol on Charge Transfer of H2 Evolution under Visible Light with Dye-sensitized Nanocrystalline TiO2. Masato M. Maitani, Conghong Zhan, Dai Mochizuki, Eiichi Suzuki, Yuji Wada, Appl Catal B., 140-141, 406 (2013).
244. A Photostable Bi-Luminophore Pressure-Sensitive Paint Measurement System Developed with Mesoporous Silica Nanoparticles. Dai Mochizuki, Shinichi Tamura, Hiroaki Yasutake, Tomoharu Kataoka, Kazunori Mitsuo, Yuji Wada, Journal of Nanoscience and Nanotechnology, 13(4), 2777-2781 (2013).
243. Influence of Coexisting Electron Donor Species on Charge Transfer in Dye-Sensitized Nanocrystalline TiO2 for H2 Evolution under Visible Light. Masato M. Maitani, Conghong Zhan, Ching-Chun Huang, Chi-Chang Hu, Dai Mochizuki, Eiichi Suzuki, Yuji Wada, Bull. Chem. Soc. Jpn., 85(12), 1268-1276 (2012).
242. Local Thermal Nonequilibrium on Solid and Liquid Interface Generated in a Microwave Magnetic Field. Dai Mochizuki, Masashi Shitara, Masato Maitani, Yuji Wada, Chemistry Letters, 41(11), 1409-1411 (2012).
241. Sequential Coupling Approach to the Synthesis of Nickel(II) Complexes with N-aryl-2-amino Phenolates. Shinichiro Fuse, Hiroaki Tago, Masato M. Maitani, Yuji Wada, Takashi Takahashi, ACS Combinatorial Science, 14(10), 545-550 (2012).
240. Luminescence of ortho-Metalated Iridium Complexes Encapsulated in Zeolite Supercages by the Ship-in-a-Bottle Method. Chen Xu, Dai Mochizuki, Yuta Hashimoto, Takehisa Honda, Yasunori Tsukahara, Tomohisa Yamauchi, Yuji Wada, European Journal of Inorganic Chemistry, 2012(19), 3113-3120 (2012).
239. Alternate Layered Nanostructures of Metal Oxides by a Click Reaction. Dai Mochizuki, Kozue Kumagai, Masato M. Maitani, Yuji Wada, Angewandte Chemie International Edition, 51(22), 5452-5455 (2012).
238. Dye-sensitized H2 Evolution over TiO2 and SnO2 Nanoparticles Depending on Electron Donors. Conghong Zhan, Masato M. Maitani, Dai Mochizuki, Eiichi Suzuki, Yuji Wada, Chemistry Letters, 41(4), 423-424 (2012).
237. Enhancement of Photoexcited Charge Transfer by {001} Facet-Dominating TiO2 Nanoparticles. Masato M. Maitani, Keita Tanaka, Dai Mochizuki, Yuji Wada, The Journal of Physical Chemistry Letters, 2011(2), 2655-2659 (2011).
236. マイクロ波加熱による磁性ナノ粒子の精密構造制御 山内 智央, 塚原 保徳, 和田 雄二、粉体工学会誌、48(9), 625-631 (2011).
235. Measurements of Accurate Temperatures in the Microwave Reactors. Dai Mochizuki, Yuji Wada, Mini-Reviews in Organic Chemistry, 8(3), 294 (2011).
234. Quasi-gel-state Ionic Liquid Electrolyte with Alkyl-pyrazolium Iodide for Dye-Sensitized Solar Cells. Ishimaru, N., Kubo, W., Kitamura, T., Yanagida, S., Tsukahara, Y., Masato Maitani, Yuji Wada, Materials Science and Engineering B., 176(13), 996-1001 (2011).
233. Nucleation and Growth of Magnetic Ni-Co (core-shell) Nanoparticles in a One-Pot Reaction under Microwave Irradiation. T. Yamauchi, Y. Tsukahara, K. Yamada, T. Sakata, Y. Wada, Chemistry of Materials, 23(1), 75-84 (2011).
232. Magnetic Cu-Ni (core-shell) nanoparticles in a one-pot reaction under microwave irradiation. Yamauchi, T., Tsukahara, Y., Sakata, T., Mori, H., Yanagida, T., Kawai, T., Wada, Y., Nanoscale, 2(4), 515-523 (2010).
231. Significant enhancement in the power-conversion efficiency of chlorophyll co-sensitized solar cells by mimicking the principles of natural photosynthetic light-harvesting complexes. Wang, X. F., Koyama, Y., Kitao, O., Wada, Y., Sasaki, S., Tamiaki, H., Zhou, H. S., Biosensors and Bioelectronics, 25(8), 1970-1976 (2010).
230. In Situ Observation of Nonequilibrium Local Heating as an Origin of Special Effect of Microwave on Chemistry. Tsukahara, Y., Higashi, A., Yamauchi, T., Nakamura, T., Yasuda, M., Baba, A., Wada, Y., The Journal of Physical Chemistry C., 114(19), 8965-8970 (2010).
229. Absorption cross-section control of Eu(III) complexes for increase of amplified spontaneous emission excited by third harmonic of nanosecond Nd:YAG laser. Hasegawa, Y., Nakamura, K., Kawai, H., Yasuda, N., Tsukahara, Y., Wada, Y., Journal of Alloys and Compounds, 488(2), 578-581 (2009).
228. Microwave-assisted synthesis of monodisperse nickel nanoparticles using a complex of nickel formate with long-chain amine ligands. Yamauchi, T., Tsukahara, Y., Sakamoto, T., Kono, T., Yasuda, M., Baba, A., Wada, Y., Bulletin of the Chemical Society of Japan, 82(8), 1044-1051 (2009).
227. Barium ferrite powders prepared by microwave-induced hydrothermal reaction and magnetic property. Yamauchi Tomohisa, Tsukahara Yasunori, Sakata Takao, Mori Hirotaro, Chikata Tsukasa, Katoh Shunsaku, Wada Yuji, Journal of Magnetism and Magnetic Materials, 321(1), 8-11 (2009).
226. Electron Transport and Recombination in Dye-Sensitized TiO2 Solar Cells Fabricated without Sintering Process. Mori Shogo, Sunahara Kenji, Fukai Yosuke, Kanzaki Taisuke, Wada Yuji, Yanagida Shozo, Journal of Physical Chemistry C., 112(51), 20505-20509 (2008).
225. Enhanced debromination of brominated flame retardant plastics under microwave irradiation. Bhaskar Thallada, Hosokawa Asako, Muto Akinori, Tsukahara Yasunori, Yamauchi Tomohisa, Wada Yuji, Green Chemistry, 10 (7), 739-742 (2008).
224. Dependence of Photocurrent and Conversion Efficiency of Titania-Based Solar Cell on the Qy Absorption and One Electron-Oxidation Potential of Pheophorbide Sensitizer. Wang Xiao-Feng, Koyama Yasushi, Nagae Hiroyoshi, Wada Yuji, Sasaki Shin-ichi, Tamiaki Hitoshi, Journal of Physical Chemistry C., 112(11), 4418-4426 (2008).
223. Microwave-Irradiated Transition-Metal Catalysis: Rapid and Efficient Dehydrative Carbon?Carbon Coupling of Alcohols with Active Methylenes. Srinivasarao Arulananda Babu, Makoto Yasuda, Yasunori Tsukahara, Tomohisa Yamauchi, Yuji Wada, Akio Baba, Synthesis, 11 , 1717-1724 (2008).
222. Improvement of lasing properties of europium (III) complexes by increase of emission quantum yield. Nakamura Kazuki, Hasegawa Yasuchika, Kawai Hideki, Yasuda Naoki, Tsukahara Yasunori, Wada Yuji, Thin Solid Films, 516(9), 2376-2381 (2008).
221. Functionalization of multi-walled carbon nanotubes realized by microwave-driven chemistry inducing dispersibility in liquid media. Tsukahara Yasunori, Yamauchi Tomohisa, Kawamoto Tadashi, Wada Yuji, Bulletin of the Chemical Society of Japan, 81(3), 387-392 (2008).
220. Multi-color photoluminescence from multi-components in zeolite cavity. Tsukahara Yasunori, Sato Mutsuko, Katagiri Shinya, Honda Takehisa, Nakamura Kazuki, Wada Yuji, Journal of Alloys and Compounds, 451(1-2), 194-197 (2008).
219. Luminescent polymer film containing tetranuclear Eu(III) complex as temperature-sensing device. Tsukahara Yasunori, Yamauchi Tomohisa, Kawamoto Tadashi, Wada Yuji, Journal of Alloys and Compounds, 453(1-2), L1-L3 (2008).
218. Evidence for encaging luminescent guest molecules in the inner cages of zeolite host. Kataoka Tomoharu, Mozer Attila J., Tsukahara Yasunori, Yamauchi Tomohisa, Wada Yuji, Bulletin of the Chemical Society of Japan, 80(12), 2303-2312 (2007).
217. Effects of organic acids on the size-controlled synthesis of rutile TiO2 nanorods. Jiang Yinhua, Yin Hengbo, Sun Yueming, Liu Hui, Lei Lixu, Chen Kangmin, Wada Yuji, Applied Surface Science, 253(23), 9277-9282 (2007).
216. Dye-Sensitized TiO2 Solar Cells Using Imidazolium-Type Ionic Liquid Crystal Systems as Effective Electrolytes. Yamanaka Noriyo, Kawano Ryuji, Kubo Wataru, Masaki Naruhiko, Kitamura Takayuki, Wada Yuji, Watanabe Masayoshi, Yanagida Shozo, Journal of Physical Chemistry B., 111(18), 4763-4769 (2007).
215. Enhanced Lasing Properties of Dissymmetric Eu(III) Complex with Bidentate PhosphineLigands. Nakamura Kazuki, Hasegawa Yasuchika, Kawai Hideki, Yasuda Naoki, Kanehisa Nobuko, Kai Yasushi, Nagamura Toshihiko, Yanagida Shozo, Wada Yuji, J. Phys. Chem. A., 111(16), 3029-3037 (2007).
214. Preparation of luminescent nanosized NaEu(MoO4)2 incorporated in amorphous matrix originated from zeolite. Suzuki Shigeru, Ryo Munenori, Yamamoto Tetsushi, Sakata Takao, Yanagida Shozo, Wada Yuji, Journal of Materials Science, 42(15), 5991-5998 (2007).
213. Energy-transfer mechanism in photoluminescent terbium(III) complexes causing their temperature-dependence. Katagiri Shinya, Tsukahara Yasunori, Hasegawa Yasuchika, Wada Yuji, Bulletin of the Chemical Society of Japan, 80(8), 1492-1503 (2007).
212. Effects of organic modifiers on the size-controlled synthesis of hydroxyapatite nanorods. Wang Aili, Yin Hengbo, Liu Dong, Wu Huixiong, Wada Yuji, Ren Min, Xu Yiqing, Jiang Tingshun, Cheng Xiaonong, Applied Surface Science, 253(6), 3311-3316 (2007).
211. Nanohybrid polymer prepared by successive polymerization of methacrylate monomer containing silver nanoparticles in situ prepared under microwave irradiation. Wada Yuji, Kobayashi Taishi, Yamasaki Hayahide, Sakata Takao, Hasegawa Noriaki, Mori Hirotaro, Tsukahara Yasunori, Polymer, 48(6), 1441-1444 (2007).
210. Size-controlled synthesis of hydroxyapatite nanorods by chemical precipitation in the presence of organic modifiers. Wang Aili, Liu Dong, Yin Hengbo, Wu Huixiong, Wada Yuji, Ren Min, Jiang Tingshun, Cheng Xiaonong, Xu Yiqing, Materials Science & Engineering C: Biomimetic and Supramolecular Systems, 27(4), 865-869 (2007).
209. Investigation of the Effect of Alkyl Chain Length on Charge Transfer at TiO2/Dye/Electrolyte Interface. Mori Shogo N., Kubo Wataru, Kanzaki Taisuke, Masaki Naruhiko, Wada Yuji, Yanagida Shozo, Journal of Physical Chemistry C, 111(8), 3522-3527 (2007).
208. Gas phase hydrogenation of maleic anhydride to -butyrolactone by Cu-Zn-Ti catalysts. Hu Tongjie, Yin Hengbo, Zhang Ruichao, Wu Huixiong, Jiang Tingshun, Wada Yuji, Catalysis Communications, 8(2), 193-199 (2007).
207. Mica coated by direct deposition of rutile TiO2 nanoparticles and the optical properties. Ren Min, Yin Hengbo, Wang Aili, Jiang Tingshun, Wada Yuji, Materials Chemistry and Physics, 103(2-3), 230-234 (2007).
206. Preparation of monodispersed Cu nanoparticles by microwave-assisted alcohol reduction. Nakamura Takashi, Tsukahara Yasunori, Sakata Takao, Mori Hirotaro, Kanbe Yumi, Bessho Hisami, Wada Yuji, Bulletin of the Chemical Society of Japan, 80(1), 224-232 (2007).
205. Preparation of Ag core-Cu shell nanoparticles by microwave-assisted alcohol reduction process. Nakamura Takashi, Tsukahara Yasunori, Yamauchi Tomohisa, Sakata Takao, Mori Hirotaro, Wada Yuji, Chemistry Letters, 36(1),154-155 (2007).
204. A dye-sensitized solar cell using pheophytin-carotenoid adduct: Enhancement of photocurrent by electron and singlet-energy transfer and by suppression of singlet-triplet annihilation due to the presence of the carotenoid moiety. Wang Xiao-Feng, Koyama Yasushi, Wada Yuji, Sasaki Shin-ichi, Tamiaki Hitoshi, Chemical Physics Letters, 439(1-2), 115-120 (2007).
203. Fabrication of dye-sensitized solar cells using chlorophylls c1 and c2 and their oxidized forms c'1 and c'2 from Undaria pinnatifida (Wakame). Wang Xiao-Feng, Zhan Cong-Hong, Maoka Takashi, Wada Yuji, Koyama Yasushi, Chemical Physics Letters, 447(1-3), 79-85 (2007).
202. The First Observation of the Magnetic Circular Dichrosim in EuS Nanocrystals. Y. Tsukahara, T. Kataoka, Y. Hasegawa, S. Kaizaki, Y. Wada, J. Alloy Comp., 408-412, 203-206 (2006).
2006年以降省略 総説・解説(2006年以降) 望月大、岸本史直、和田雄二、「無機酸化物ナノ構造体を用いた光誘起電荷分離の制御」、ゼオライト学会誌、2016, 33, 4. 9. 遷移金属酸化物ナノシートの金属錯体修飾による光触媒能の発現 岸本史直、望月大、和田雄二、月間ケミカルエンジニヤリング、 61, 11 (2016).
8. 無機酸化物ナノ構造体を用いた光誘起電荷分離の制御 望月大、岸本史直、和田雄二、ゼオライト学会誌、33, 4 (2016).
7. マイクロ波を用いた材料精密形成技術 和田雄二、米谷真人、望月大、ファインセラミックスレポート、32(4), 148-152 (2014).
6. マイクロ波化学を用いた金属ナノ粒子の精密合成 和田雄二、望月大、塗装工学、49(6), 202-206 (2014).
5. マイクロ波加熱の化学反応への適用:貴金属ナノ粒子の合成 和田雄二、The Chemical Times、230(4), 7-11 (2013).
4. マイクロ波を利用するグリーン&サステイナブル化学プロセス 和田雄二、望月大、ペトロテック、36(8), 626-632 (2013).
3. マイクロ波加熱による迅速ナノ構造薄膜形成と機能材料への展開 米谷真人、和田雄二、月刊「ケミカルエンジニヤリング」、58(11), 1 (2013).
2. 光を操るナノハイブリッド系-分子・イオンの光励起状態緩和過程の制御 和田雄二、望月大、触媒、52(3) (2010).
1. マイクロ波を利用した化学反応 : 何が得られるか 和田雄二、望月大、ペトロテック、31(8), 552-558 (2008).
著書(2006年以降) 16. Chemical reactions on the interfaces of solids under microwaves, Yuji Wada, Dai Mochizuki, Taishi Ano, Masato M. Maitani, Shuntaro Tsubaki, Naoto Haneishi, 113–125, 2017.
15. Microwave-assisted water extraction of carbohydrates from unutilized biomass, Shuntaro Tsubaki, Ayumu Onda, Masanori Hiraoka, Satoshi Fujii, Jun-ichi Azuma, Yuji Wada, 199–219, 2017.
14. Microwave-Assisted Hydrothermal Processing of Seaweed Biomass, Shuntaro Tsubaki, Ayumu Onda, Tadaharu Ueda, Masanori Hiraoka, Satoshi Fujii, Yuji Wada, 443–460, 2017.
13. Biomass Fractionation Technologies for a Lignocellulosic Feedstock Based Biorefinery, Microwave-induced biomass fractionation, Shuntaro Tsubaki, Jun-ichi Azuma, Takeo Yoshimura, Masato Maitani, Eiichi Suzuki, Satoshi Fujii, Yuji Wada, 103–126, 2016.
12. オゾンの光化学的発生と環境, 光化学の辞典, 和田雄二, 280-281, 朝倉出版, 2014.
11. 迅速加熱、内部加熱、物質選択的加熱などを可能とするマイクロ波が拓く近未来 マイクロ波を使った化学/材料科学の新世界, RFワールド, 和田雄二, 25, 8-20, 2014.
10. マイクロ波反応, 第7版化学便覧 応用化学編, 和田雄二, 丸善出版, 2014.
9. New Scope to Microwave Special Effects On Chemical Reactions-Fundamental And Applications, Proceedings of the 2nd Global Congress on Microwave Energy Applications, Yuji Wada, Hirotsugu Takizawa, The Microwave Working Group, Ltd., 2013.
8. マイクロ波を用いた機能性無機化合物ナノ粒子の精密合成, 微粒子材料-未来を拓く機能材料, 和田雄二, 89-126, エヌ・ティー・エス, 2013
7. Precisely Controlled Synthesis of Metal Nanoparticles under Microwave Irradiation, Microwaves in Nanoparticle Synthesis, Yuji Wada, Zhi Chen, Dai Mochizuki, 145-183, Wiley-VCH, 2013.
6. マイクロ波加熱による固体表面での反応促進, 触媒の設計・反応制御 事例集, 和田雄二, 295-303, 技術情報協会, 2013.
5. 電磁波理論によるマイクロ波と物質との相互作用-マイクロ波化学反応機構の構築への序章, マイクロ波化学プロセス技術 II, 佐藤啓、和田雄二, 66-80, シーエムシー出版, 2013.
4. マイクロ波化学における特殊効果, マイクロ波化学プロセス技術 II, 和田雄二, 51-65, シーエムシー出版, 2013.
3. なぜ物質製造・物質変換にマイクロ波なのか, 電気学会誌, 和田雄二、鈴木榮一、佐藤元泰, 132(1), 8-9, 2012.
2. マイクロ波駆動化学を用いた金属ナノ粒子合成, ナノ粒子の創製と応用展開, 和田雄二, フロンティア出版, 2008.
1. 次世代発光素子~希土類発光素子のホストとしてのナノゼオライトをホストとする希土類イオン発光系~, ディスプレイと照明の材料技術~液晶・プラズマ・有機EL・LED・プロジェクター~, 和田雄二、望月大, 41-51, シーエムシー出版, 2010.
特許(2006年以降) 10. 積層膜とその製造方法、および積層膜の焼成装置 米谷真人、和田雄二: 国立大学法人東京工業大学, 特願2013-045675, 2013/3/7
9. 酸化チタン膜、酸化チタン前駆体液、酸化チタン膜の製造方法、酸化チタン積層膜、及び色素増感型光電変換素子 米谷真人、田中恵多、和田雄二: 国立大学法人東京工業大学, 特願2011-282584, 2012/12/26
8. 炭化水素の製造方法 和田雄二、鈴木榮一、望月大、米谷真人、君島拓郎、野本英朗、樋口雅一、河野巧、井上修治: 国立大学法人東京工業大学、新日鉄住金化学株式会社, 特願2013-503621, 2012/3/9, 特開(再表)2012/121366, 2014/7/17
7. 金属ナノ粒子及びその製造方法並びに導電性インク 和田雄二、陳智、望月大、内田博、篠崎研二、冨田浩幸: 国立大学法人東京工業大学、昭和電工株式会社, 特願2012-051636, 2012/3/8, 特開2013-185213, 2013/9/19
6. 色素増感型光電変換素子用の非平面型構造を有する完全有機色素化合物、およびそれを用いた光電変換素子 海宝龍夫、高橋孝志、布施新一郎、和田雄二、米谷真人、早瀬修二、尾込裕平、伊牟田聡: 関東天然瓦斯開発、国立大学法人東京工業大学、国立大学法人九州工業大学、株式会社ケムジェネシス, 特願2012-045915, 2012/3/1
5. 色素増感型光電変換素子用の高活性完全有機色素化合物、およびそれを用いた光電変換素子 海宝龍夫、高橋孝志、布施新一郎、和田雄二、米谷真人、早瀬修二、尾込裕平、伊牟田聡: 関東天然瓦斯開発、国立大学法人東京工業大学、国立大学法人九州工業大学、株式会社ケムジェネシス, 特願2012-045914, 2012/3/1, 特開2013-181108 2013/9/12
4. マイクロ波加熱装置及びマイクロ波加熱方法 和田雄二、望月大、内田博、冨田浩幸、篠崎研二、竹内和彦、長畑律子、原中正行: 国立大学法人東京工業大学、昭和電工株式会社、独立行政法人産業技術総合研究所, 特願2011-244284, 2011/11/8, 特開2013-101808, 2013/5/23
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