[1]     K. Kashimura*, T. Miyata, A. Oshita, N. Omoto, T. Fujii, and H. Yokawa; Microwave Sintering of Carbon Fly Ash Containing Garnet and Sodium Chloride, FUEL, 316 (2022) 123217, 1-7 

[2]     Takashi Fujii, Akio Oshita and Keiichiro Kashimura*; Behaviour of Microwave Heated Al₄SiC₄ at 2.45 GHz, Materials 14, 17 (2021) 4878 1-9

[3]     Takeshi Miyata^*, Syun Gohda, Takashi Fuji, Hironobu Ono, Hibiki Itoh, Yuta Nishina, and Keiichiro Kashimura: Pure electric and magnetic fields applied to reduced graphene oxide for defect repair and oxygen removal, CARBON, 171, (2021) 10-15

[4] K. Kashimura^*, T. Namioka, T. Miyata, T. Fujii, H. Itoh, and H. Fukushima: Curie-temperature dependence of microwave heating behavior of Ni_xZn_(1-x)Fe₂O₄ powders, AIP Advances, 10 (2020), 045320 - 1-6

[5]     Chen Qu, Keigo Ito, Isamu Katsuyama, Tomohiko Mitani, Keiichiro Kashimura, and Takashi Watanabe^*: Microwave directly accelerated cleavage of C–C and C–O bonds of lignin by copper oxide–peroxide reaction, ChemSusChem, 13 (2020) 1–10

[6]     Jun fukushima ^*, Keiichiro Kashimura, Hirotsugu Takizawa: Nitridation Reaction of Titanium Powders by 2.45 GHz Multimode Microwave Irradiation using a SiC Susceptor in Atmospheric Conditions, Processes, 8, 1 (2020) 20

[7]     Baek, Heeyoel; Kashimura, Keiichiro; Fujii, Takashi; Tsubaki, Shuntaro; Wada, Yuji; Fujikawa, Shigenori; Sato, Takuma; Uozumi, Yasuhiro; 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, 10 (2020) 2148 − 215

[8]     Keiichiro Kashimura *, Jun fukushima, Tomoaki Namioka, Takashi Fujii, Hirotsugu Takizawa, Hideoki Fukushima: Microwave Heating Behavior in SiC fiber–MO₂ mixtures (M = Ce, Zr)—Selective Heating of Micrometer-Sized Fibers Facilitated by ZrO₂ Powder, Processes, 8, 1 (2020) 47

[9]     N. Kimura^*, T. Fujii, K. Kashimura and W. Nakao: Joining of Al₂O₃ Rods Using Microwaves and Employing SiC Particles as Adhesive, Processes, 7, 750 (2019) 750, doi:10.3390/pr7100750

[10]     Noboru Yoshikawa, Kohsaku Seki, Naoki Inoue, Sergey Komarov, Kei-ichirou Kashimura, Takashi Fujii, Hideoki Fukushima: Complex Permittivity and Microwave Heating Behavior of Rod-Shaped SiC and Oxide (SiO₂, Al₂O₃) Mixtures, Materials Chemistry and Physics, 234(2019) 281–287

[11]     T. Fujii, K. Kashimura^*, H. Tanaka: Microwave sintering of fly ash containing unburnt carbon and sodium chloride, Journal of Hazardous Materials 369 (2019) 318–323

[12]     K. Kashimura*, T. Namioka, T. Fuji, N. Yoshikawa and H. Fukushima: Aspect and Mass Ratio Dependence of Microwave Heating in Silicon Carbide Fibers at 2.45 GHz, Journal of Applied Physics, 123, 22 (2018) 215108

[13] J. Fukushima, S. Tsubaki, T. Matsuzawa, K. Kashimura*, T. Mitani, T. Namioka, S. Fujii, N. Shinohara, H. Takizawa and Y. Wada: Effect of Aspect Ratio on Permittivity of Graphite Fiber in Microwave Heating, Materials, 11 (2018) 169-182

[14] Qu, Chen; Kaneko, Masakazu; Kashimura, K.; Tanaka, Kanade; Ozawa, Satoshi; Watanabe, Takashi^*: Direct production of vanillin from wood particles by copper oxide–peroxide reaction promoted by electric and magnetic fields of microwave, ACS Sustainable Chemistry & Engineering, 5 (2017) 11551−11557 

[15] Hiroshi Yokawa, Hirokazu Mutou, Shuntaro Tsubaki, Naoto Haneishi, Takashi Fuji, Norio Asano, Keiichiro Kashimura*, Tomohiko Mitani, Satoshi Fujii, Naoki Shinohara and Yuji Wada: Water Vaporization from Deposited Sand by Microwave Cavity Resonator, Journal of Civil & Environmental Engineering, 7, 4 (2017) 1000279

[16] Mamiko Asano^*, Minoru Sakaguchi, Satoshi Tanaka, Keiichiro Kashimura, Tomohiko Mitani, Masaya Kawase, Hitoshi Matsumura, Takako Yamaguchi, Yoshikazu Fujita & Katsuyoshi Tabuse: Effects of Normothermic Conditioned Microwave Irradiation on Cultured Cells Using an Irradiation System with Semiconductor Oscillator and Thermo-regulatory Applicator, Scientific Reports, 7, 2017, 41244 (DOI: 10.1038/srep41244)

[17] K. Kashimura^*, H. Sugawara, M. Hayashi, T. Mitani, and N. Shinohara: Microwave heating behavior and microwave absorption properties of barium titanate at high temperatures, AIP ADVANCES 6, (2016) 065001

[18] H. Sugawara, K. Kashimura*, M. Hayashi, T. Matsumuro, T. Watanabe, T. Mitani and N. Shinohara: Temperature Dependence and Shape Effect in High-Temperature Microwave Heating of Nickel Oxide Powders, Physica B, 458 (2015) 35–39

[19] N. Yoshikawa, K. Kashimura*, M. Hashiguchi, M. Sato, S. Horikoshi, T. Mitani and N. Shinohara: Detoxification Mechanism of Asbestos Materials by Microwave Treatment, Journal of Hazardous Materials, 284 (2015) 201–206

[20] S. Tsubaki*, M. Hiraoka, S. Hadano, K. Okamura, T. Ueda, H. Nishimura, K. Kashimura, T. Mitani: Effects of acidic functional groups on dielectric properties of sodium alginates and carrageenans in water, Carbohydrate Polymers, 115, 78-87, 2015.

[21] K. Kashimura*, T. Yamaguchi, M. Sato, Y. Saori, K. Kishima, S. Horikoshi, N. Yoshikawa , T. Mitani, and N. Shinohara: Rapid and In-Situ Transformations of Asbestos into Harmless Waste by Microwave Rotary Furnace - Application of Microwave Heating to Rubble Processing of the 2011 Tōhoku Earthquake -, Journal of Hazardous, Toxic, and Radioactive Waste (2014) 04014041-1-5

[22] H. Sugawara, K. Kashimura*, M. Hayashi, S. Ishihara, T. Mitani, N. Shinohara: Behavior of Microwave-Heated Silicon Carbide Particles at Frequencies of 2.0-13.5 GHz, Applied Physics Letters 105 (2014) 034103 - 1-5

[23] K. Nagata*, M. Sato, K. Hara, T. Hotta, Y. Kitamura, M. Hayashi, K. Kashimura, T. Mitani and J. Fukushima: Microwave Blast Furnace and Its Refractories, Journal of the Technical Association of Refractories Japan, 34 [2] (2014) 66-73

[24] S. Horikosh^*, T. Sumi, S. Ito, R. Dillert, K. Kashimura, N. Yoshikawa, M. Sato, N. Shinohara: Microwave-driven asbestos treatment and its scale-up for use after natural disasters, ACS Environmental Science & Technology, 48 (2014) 6882 – 6890

[25] S. Tsubaki^*, M. Hiraoka, S. Hadano, H. Nishimura, K. Kashimura, T. Mitani: Functional group dependent dielectric properties of sulfated hydrocolloids extracted from green macroalgal biomass, Carbohydrate Polymers, 107 (2014) 192–197

[26]  Yanagawa, K. Kashimura*, T. Mitani, N. Shinohara, T. Yoshimura: Influence of Powerful Microwaves on the Termite Coptotermes Formosanus-Impact of Powerful Microwaves on Insects, in Processing and properties of advanced ceramics and composites VI / edited by J.P. Singh (Ceramic transactions) 249 (2014) 367-374

[27] K. Kashimura*, N. Sabelstrom, K. Imazeki, K. Takeda, M. Hayashi, T. Mitani, N. Shinohara and K. Nagata: Quasi-Stable Temperature of Steady State of Hematite by Microwave Heating, Chemical Engineering & Processing, 76 (2014) 1– 5

[28] M. Yanagawa, K. Kashimura*, M. Hayashi, M. Sato, T. Mitani, N. Shinohara and K. Nagata: Control of Hot Spots for Continuous Microwave Iron Making – Effects of Ore-Carbon Mixture Rotations on Refractory and Pig Iron Production –, International Journal of Materials Engineering and Technology, Vol. 9, 2 (2013) 119 – 134

[29] M. Hayashi*, K. Takeda, K. Kashimura, T. Watanabe and K. Nagata: Carbothermic reduction of hematite powders by microwave heating, ISIJ International, Vol. 53, 7 (2013) 1125–1130

[30] K. Kashimura*, N. Hasegawa, S. Suzuki, M. Hayashi, T. Mitani, K. Nagata and N. Shinohara: Microwave Heating Behavior of Conductive Multi-particles using Spatially Separated Electric and Magnetic nodes - Effects of Relative Density on Absorption Properties of Various Carbon Powder Compacts -, Journal of Applied Physics, Vol. 113, 1 (2013) 024902 - 1 - 5

[31] J. Fukushima*, K. Kashimura, S. Takayama, M. Sato, S. Sano, Y. Hayashi and H. Takizawa: In-Situ Kinetic Study on Non-Thermal Reduction Reaction of CuO during Microwave Heating, Materials Letters, 91 (2013) 252–254

[32] K. Kashimura*, J. Fukushima, T. Mitani, M. Sato and N. Shinohara: Metal Ti-Cr Alloy Powders Nitriding under Atmospheric Pressure by Microwave Heating, Journal of Alloys and Compounds, 550 (2013) 239–244

[33] K. Kashimura*, S. Suzuki, M. Hayashi, T. Mitani, K. Nagata and N. Shinohara: Surface-Plasmon-Like Modes of Graphite Powder Compact in Microwave Heating, Journal of Applied Physics, Vol.112, 3 (2012) 034905 - 1 - 5

[34] K. Kashimura*, M. Sato, M. Hotta, D. K. Agrawal, K. Nagata, M. Hayashi, T. Mitani and N. Shinohara: Iron Making from Fe₃O₄ and Graphite using Microwave Energy at 915MHz, Material Science & Engineering A, 556 (2012) 977–979

[35] J. Fukushima*, K. Kashimura, S. Takayama and M. Sato: Microwave-energy Distribution for Reduction and Decrystallization of Titanium Oxides, Chemistry Letters, Vol. 41 (2012) 39 - 41

[36] J. Fukushima*, K. Kashimura, and M. Sato: Chemical bond cleavage induced by electron heating -Gas emission behavior of titanium-metalloid compounds (titanium nitride and oxide) in a microwave field -, Materials Chemistry and Physics, Vol. 131 (2011) 178–183

[37] K. Kashimura*, J. Fukushima and M. Sato: Oxygen Partial Pressure Change with Metal Titanium Powder Nitriding under Microwave Heating, ISIJ International, Vol.51, No.2 (2011) 181 - 185

[38] K. Kashimura*, K. Nagata and M. Sato: Concept of Furnace for Metal Refining by Microwave Heating-A Design of Microwave Smelting Furnace with Low CO₂ Emission -, Materials Transaction, Vol. 51, No. 10 (2010) 1847 - 1853

[39] K. Kashimura* and K. Nagata: Removal of Fe₃O₄ Film Using Atmospheric Transferred Plasma at Low Temperature, ISIJ International, Vol. 50, No. 1 (2010)169 – 173

[40] K. Kashimura* and K. Nagata: The oxygen partial pressure on the surface of Na₂O-SiO₂ molten glass heated by thermal plasma of Ar, Materials Transactions, Vol. 50, No. 6 (2009) 1346 – 1350

[41] K. Kashimura*, Y. Kitayama and K. Nagata: Excess Vaporization of Na from Na₂O-SiO₂ Molten Slag by Transfer Thermal Plasma of Ar, Materials Transactions, Vol. 50, No. 4 (2009) 814 – 818

[42] K. Kashimura*, T. Yamashita and K. Nagata: The floating potential on the surface of 25mol%Na₂O-SiO₂ glass heated by thermal plasma of Ar, Materials Transactions, Vol. 49, No. 11 (2008) 2579 - 2583

[43] K. Kashimura*, Y. Nakada and K. Nagata: Excess Electrochemical Vaporization of SiO from Na₂O-SiO₂ Molten Slag by Transfer Thermal Plasma of Ar, Materials Transactions, Vol. 49, No. 6 (2008) 1327 - 1332

 国際会議論文

[44] K. Kashimura; The electrical permittivity of metal compounds for high temperature processing at 2.45GHz microwave, EPM2018 (2018/10/13) Awajishima

[45] T. Fuji, K. Kashimura, H. Tanaka; Fusion Solidification Treatment Technology of Combustion Ash by Microwave Heating, EPM2018 (2018/10/13) Awajishima

[46] Takashi Watanabe, Chen Qu, Satoshi Oshiro, Hiroshi Nishimura, Keiichiro Kashimura, Takashi Nagata, Masato Katahira, Katsuhiro Isozaki, Hikaru Takaya, Masaharu Nakamura: Approaches for valorization of ligninocelluloses using microwave technology and lignin-binding catalysts, lignobiotech (2018), Spain, Oct.

[47] Keiichiro Kashimura: Iron Making by Electromagnetic Heating at the frequency of 2.45 GHz, IW FIRT 2017, Feb (Invited)

[48] N. Shinohara, S. Arimasa, K. Kashimura and T. Mitani: Study on microwave absorption property of metal particles by electromagnetic simulation, Pacihichem2015, Dec. 15-20 (2015) Honolulu, Hawaii

[49] K. Kashimura, T. Mitani and N. Shinohara: Frequency dependence of oxygen emission TiO_2-x particles by microwave heating, Pacihichem2015, Dec. 15-20 (2015) Honolulu, Hawaii

[50] R. NAKAJIMA, T. MITANI, N. SHINOHARA, K. KASHIMURA, Y. NOZAKI, T. CHIKATA and T. WATANABE: Design of a Broadband Small-size Electromagnetic Wave Irradiation Applicator for Creation of Lignin-derived Polymer, Thailand-Japan MicroWave (2014)

[51] M. Sato, J. Fukushima, K. Kashimura, T. Mitani, K. Nagata, D. Agrawal: Thermodynamics on MW Processing with Non-Thermal Effects, 2nd Global Congress on Microwave Energy Applications (2013), Aug.

[52] N. Shinohara, N. Yoshikawa, S. Horikoshi, T. Mitani, T. Kishima, K. Kashimura* and M. Sato: Applications of Microwave Powers for the Rubble Processing to the Great East Japan Earthquake - Test System for Rendering Asbestos Harmless in the Crashed Slate, 2nd Global Congress on Microwave Energy Applications (2013)

[53] J. Fukushima*, M. Sato, K. Kashimura, T. Mitani and H. Takizawa: Effect of Alllplitude Modulation of Microwave on Non-thermal Reduction of Copper Oxides, 2nd Global Congress on Microwave Energy Applications (2013)

[54] M. Sato*, N.Yoshikawa and K. Kashimura: Containment of Fukushima Radio Active Pollutions in Microwave Sintered Cray and Glass, proceeding of 2nd Global Congress on Microwave Energy Applications (2013)

[55] M. Sato*, J. Fukushima, K. Kashimura and M. Tanaka: Studies on reaction kinetics under coherent microwave irradiations, the International Society for Optics and Photonics (2011) 8121 - 8135  

[56] J. Fukushima*, K. Kashimura and M. Sato: Reduction Enhancement of Copper oxide during Microwave Heating, International Conference on Microwave and High Frequency Heating (2011) 11-14

[57] J. Fukushima*, K. Kashimura, M. Sato and M. Tanaka: Theory of Microwave Non-Thermal Effects, International Conference on Microwave and High Frequency Heating (2011) 209-212

[58] M. Sato*, J. Fukushima and K. Kashimura: Energy Transfer Analysis to Clear Microwave Effects in Materials: International Conference on Materials for Advanced Technologies (2011) 6/26 – 7/1 (Invited)

[59] M. Sato*, K. Kashimura and A. Matsubara: Studies for Generations, Transmissions and Absorptions of Coherent Motions in Solid and Liquid Materials by Microwaves, Materials Science & Technology (2010) 2895 -2902

[60] J. Fukushima*, S. Takayama, A. Matsubara, M. Sato and K. Kashimura: Reduction Behavior of TiO₂during Microwave Heating, Materials Science & Technology (2010) 2831 -2836

[61] K. Kashimura*, J. Fukushima and M. Sato: Mechanism of Metal Titanium Powder Nitriding under Microwave Heating at High Oxygen Partial Pressure, Materials Science & Technology (2010) 2827 -2829 

[62] M. Sato*, K. Kashimura, S. Taayama and T. Shimozuma: THE ARCHITECTURE OF MICROWAVE BLAST FURNACE, Ampere 11^th conference (2009) 46-48

[63] K. Nagata*, K. Kashimura: The Mechanisms of Electrochmical Vaporization from Sodium Silicate Melt Heated by Transfer Thermal Plasma of Ar; 8th Interl. Conference on Molten Slags.Fluxes and Salts, MOLEN (2009) 565-576