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金村 聖志

氏 名金村 聖志カナムラ キヨシかなむら きよし 
職 位教授【先導研究者】
所 属首都大学東京都市環境学部 環境応用化学科
都市環境科学研究科 環境応用化学域
2018年再編前の所属
都市環境学部 分子応用化学コース
都市環境科学研究科 分子応用化学域
 
専門・研究分野セラミックス化学、電気化学、エネルギー化学
最終学歴・学位昭和59年5月 京都大学大学院工学研究科工業化学専攻博士後期課程中途退学・昭和62年1月工学博士
研究テーマエネルギーの利用効率を高めるために必要な、革新的な蓄電池および燃料電池の開発をめざし、全固体電池やリチウム金属を用いた電池に関する材料および電池化学の研究を推進しています。革新的な特性を有する電池開発のために、基礎化学から実用化研究も含めて包括的および統合的な研究を行い、低炭素社会の実現に向けて取り組んでいます。
研究キーワード燃料電池、リチウム電池、バイオセラミックス、環境・エネルギー材料
研究業績・著書・
論文、その他
それに準じる業績
Publication List in last 5 years (Battery)
(1)Masashi Kotobuki, Kiyoshi Kanamura, Yosuke Sato and Toshihiro Yoshida, “Fabrication of all-solid-state lithium battery with lithium metal anode using Al2O3-added Li7La3Zr2O12 solid electrolyte”, Journal of Power Sources, 196 (2011) pp.7750-7754.
(2)Takamitsu Saito, Hirokazu Munakata, Kiyoshi Kanamura, “Evaluation of LiMn2O4 by Single Particle Technique Combined with Electrochemical Impedance Spectroscopy”, Journal of the Society of Inorganic Materials, Japan18, (2011) pp.201-205.
(3)Masashi Kotobuki, Keigo Hoshina, Kiyoshi Kanamura, “Electrochemical properties of thin TiO2 electrode on Li1+xAlxGe2-x(PO4)3”, Solid State Ionics, 198 (2011) pp.22-25.
(4)Keigo Hoshina, Kazuomi Yoshima, Masashi Kotobuki, Kiyoshi Kanamura, “Fabrication of LiNi0.5Mn1.5Othin film cathode by PVP sol-gel process and its application of all-solid state lithium ion batteries using Li1+xAlxTi2-x(PO)3 solid electrolyte”, Solid state Ionics, 209-210(2012) pp.30-35.
(5)Kazuomi Yoshima, Hirokazu Munakata, Kiyoshi Kanamura, “Fabrication of micro lithium-ion battery with 3D anode and 3D cathode by using polymer wall”, Journal of Power Sources, 208 (2012) pp.404-408.
(6)Masaki Matsui, Kaoru Dokko, Yasuhiro Akita, Hirokazu Munakata, Kiyoshi Kanamura, “Surface layer formation of LiCoO2 thin film electrodes in non-aqueous electrolyte containing lithium bis(oxalate)borate”, Journal of Power Sources, 210 (2012) pp.60-66.
(7)Hirokazu Munakata, Hiroya Kaido, Kazuomi Yoshima, Kiyoshi Kanamura, “Electrophoretic Fabrication of Rechargeable Micro Lithium-Ion Battery with 3D Configuration”, Key Engineering Materials, 507 (2012) pp.163-167.
(8)“Hirokazu Munakata, Bunpei Takemura, Takamitsu Saito, Kiyoshi Kanamura, Evaluation of real performance of LiFePO4 by using single particle technique”, Journal of Power Sources, 217 (2012) pp.444-448.
(9)Masanobu Nakayama , Masashi Kotobuki , Hirokazu Munakata , Masayuki Nogami and Kiyoshi Kanamura, “First-principles density functional calculation of electrochemical stability of fast Li ion conducting garnet-type oxides”, Physical Chemistry Chemical Physics, Issue 28, (2012) pp.10008-10014.
(10)Jin-Hee MOON, Hirokazu MUNAKATA, Koichi KAJIHARA, Kiyoshi KANAMURA, “Hydrothermal Synthesis of Manganese Dioxide Nanoparticles as Cathode Material for Rechargeable Batteries”, Electrochemistry, 81(1), (2013) pp.2-6.
(11)Masashi Kotobuki, Kiyoshi Kanamura, “Fabrication of all-solid-state battery using Li5La3Ta2O12 ceramic electrolyte”, Ceramics International, 39(2013) pp.6481?6487.
(12)Randy Jalem , Yoshihiro Yamamoto , Hiromasa Shiiba , Masanobu Nakayama , Hirokazu Munakata , Toshihiro Kasuga , and Kiyoshi Kanamura, “Concerted Migration Mechanism in the Li Ion Dynamics of Garnet-Type Li7La3Zr2O12”, CHEMISTRY OF MATERIALS, (2013) 25 (3), pp 425?430.
(13)Yongcheng Jin, Hirokazu Munakata, Naoya Okada, and Kiyoshi Kanamura, “Design and Evaluation of a Three Dimensionally Ordered Macroporous Structure within a Highly Patterned Cylindrical Sn-Ni Electrode for Advanced Lithium Ion Batteries”, Journal of Nanomaterials, Volume 2013 (2013), Article ID 937019, 6 pages.
(14)Yasuhiro Akita, Midori Segawa, Hirokazu Munakata, Kiyoshi Kanamura, “In-situ Fourier transform infrared spectroscopic analysis on dynamic behavior In-situ Fourier transform infrared spectroscopic analysis on dynamic behavior of electrolyte solution on LiFePO4 cathode”, Journal of Power Sources, 239 (2013) pp.175-180.
(15)Masashi Kotobuki, Hirokazu Munakata and Kiyoshi Kanamura, “All-Solid-State Li Battery for Future Energy Technology”, Handbook of Advanced Ceramics, Second Edition, (2013) pp.343-351.
(16)Kei Nishikawa,Hirokazu Munakata, Kiyoshi Kanamura, “In-situ observation of one silicon particle during the first charging”, Journal of Power Sources, Vol 243, 1 December (2013) pp.630?634.
(17)Hiroshi Fukui, Katsuya Eguchi, Hisashi Ohsuka, Takakazu Hino, Kiyoshi Kanamura, “Structures and lithium storage performance of Si?O?C composite materials depending on pyrolysis temperatures”, Journal of Power Sources, Vol 243,(2013) pp.152?158.
(18)Akira Izumi, Masakazu Sanada, Koji Furuichi, Kuniko Teraki, Takeshi Matsuda, Kenta Hiramatsu, Hirokazu Munakata, Kiyoshi Kanamura, “Rapid charge and discharge property of high capacity lithium ion battery applying three-dimensionally patterned electrode”, Journal of Power Sources, vol.256, (2014) pp. 244?249.
(19)Jeong Eun Chae, Koji Annaka, Kijoo Hong, Sang-Ick Lee, Hirokazu Munakata, Sung-Soo Kim, Kiyoshi Kanamura, “Electrochemical Characterization of Phosphorous-doped Soft Carbon using Single Particle for Lithium Battery Anode”, Electrochimica Acta, vol. 130, (2014) pp.60?65.
(20)Masaki Haibara, Syuhei Hashizume, Hirokazu Munakata, Kiyoshi Kanamura, “Solubility and Diffusion Coefficient of Oxygen in Protic Ionic Liquidswith Different Fluoroalkyl Chain Lengths”, Electrochimica Acta, vol. 132, (2014) pp. 208?213.
(21)Yasufumi Takahashi, Akichika Kumatani, Hirokazu Munakata, Hirotaka Inomata, Komachi Ito, Kosuke Ino, Hitoshi Shiku, Patrick R. Unwin, Yuri E. Korchev, Kiyoshi Kanamura, Tomokazu “Matsue, Nanoscale visualization of redox activity at lithium-ion battery cathodes”, Nature Communications, vol. 5, (2014) Article number 5450.
(22)Mian Huang , Mao Shoji , Yang Shen , Ce-Wen Nan , Hirokazu Munakata , Kiyoshi Kanamura, “Preparation and electrochemical properties of Zr-site substituted Li7La3(Zr2 -xMx)O12 (M = Ta, Nb) solid electrolytes”, Journal of Power Sources, 261 (2014) pp 206-211. 
(23)川上総一郎, 金村聖志, “メカニカルアロイングにより調製したリチウムイオン二次電池の負極用Sn系合金”, Electrochemistry, 82(6), (2014) pp.467?473.                                               
(24)金村聖志, 特集 グリーンイノベーション “革新電池の技術課題とその可能性-グリーンエネルギー社会の構築のために-“, Journal of the Society of Inorganic Materials, Japan, 21, (2014), pp 358-365.
(25)Lukas Mirko Reinold, Yuto Yamada, Magdalena Graczyk-Zajac, Hirokazu Munakata, Kiyoshi Kanamura, Ralf Riedel, “The influence of the pyrolysis temperature on the electrochemical behavior of carbon-rich SiCN polymer-derived ceramics as anode materials in lithium-ion batteries”, Journal of Power Sources, 282 (2015) pp. 409-415.
(26)川上総一郎, 海藤大哉, 秋田康宏, 棟方裕一, 金村聖志, “メカニカルミリングによるリチウムイオン二次電池用Si-遷移金属合金負極材料の調整と電気化学特性”, Electrochemistry, 83(6), (2015) pp.445?451.
(27)Hiroki YAMASHITA, Takaaki OGAMI, and Kiyoshi KANAMURA, “Hydrothermal Synthesis and Electrochemical Properties of Li2FexMnxCo1-2xSiO4/C Cathode Materials for Lithium-ion Batteries”, Electrochemistry, 83(6), (2015) pp.413-420.
(28)Randy Jalem, Masanobu Nakayama, William Manalastas, Jr., John A. Kilner, Robin W. Grimes, Toshihiro Kasuga, and Kiyoshi Kanamura, “Insights into the Lithium-Ion Conduction Mechanism of Garnet-Type Cubic Li5La3Ta2O12 by ab-Initio Calculations”, J. Phys. Chem. C, 119, (2015) pp.20783-20791.
(29)Wenchao Duana, Wenchao Yana, Xiao Yana, Hirokazu Munakatab, Yongcheng Jin Kiyoshi Kanamura, Synthesis of nanostructured Ni3S2 with different morphologies as negative electrode materials for lithium ion batteries, Journal of Power Sources, 293 (2015) pp.706-711.
(30)K. Nishikawa, M. Jin hee, K. Kanamura, “In-situ observation of volume expansion behavior of a silicon particle in various electrolytes”, Journal of Power Sources, 302 (2016) pp.46-52
(31)Xiao Yana, Wei Liua, Wenchao Yana, Deye Suna, Yongcheng Jin, Jing Wangb, Lan Xiangb, Hirokazu Munakata, Kiyoshi Kanamura, “Effect of Anatase TiO2 on Electrochemical Properties of Elongated Bending TiO2-Bronze nanowires for Lithium Ion Batteries”, Electrochimica Acta, 191 (2016) pp.661?668.
(32)Hidetoshi Abe, Masaaki Kubota, Miyu Nemoto, Yosuke Masuda, Yuichi Tanaka ,Hirokazu Munakata, Kiyoshi Kanamura, “High-capacity thick cathode with a porous aluminum current collector for lithium secondary batteries”, Journal of Power Sources, 334 (2016) pp.78-85.
(33)Mao Shoji, Hirokazu Munakata and Kiyoshi, “Fabrication of All-Solid-State Lithium-Ion Cells Using Three-Dimensionally Structured Solid Electrolyte Li7La3Zr2O12 Pellets”, Frontiers in Energy Research, 4:32. doi: 10.3389/fenrg. (2016) 00032.
(34)Shaoyin Zhu, Jiaojiao Yu, Xiao Yan, Erqing Zhao, Yanqing Wang, Deye Sun, Yongcheng Jin, Kiyoshi Kanamura, “Enhanced electrochemical performance from cross-linked polymeric network as binder for Li?S battery cathodes”, J Appl. Electrochem. Volume 46, Issue 7, (2016) pp. 725?733.
(35)Erqing Zhao, Furui Ma, Yongcheng Jin, Kiyoshi Kanamura, “Pechini synthesis of high ionic conductivity Li1.3Al0.3Ti1.7 (PO4)3 solid electrolytes : The effect of dispersant”, Journal of Alloys and Compounds, S0925-8388(16) pp.31152-5. 

NOTE
(1)Masashi Kotobuki, Yuta Mizuno, Hirokazu Munakata, Kiyoshi Kanamura, “Improved Performance of Hydrothermally Synthesized LiMnPO4 by Mg Doping”, Electrochemistry, 79 No6 (2011) pp.467-469.
(2)Masashi Kotobuki, Yuji Suzuki, Hirokazu Munakata, Kiyoshi Kanamura, Yusuke Sato, Kazuhiro Yamamoto and Toshihiro Yoshida, “Electrochemical Property of Honeycomb Type All-Solid-State Li Battery at High Temperature”, Electrochemistry, 79 No11 (2011)  pp.464-466.
(3)Masashi KOTOBUKI, Yasuhiro ISSHIKI, Hirokazu MUNAKATA, and Kiyoshi KANAMURA, “Electrochemical Properties of Three Dimensionally Ordered Composite Electrode Between TiO2 and TiO2/Li1.5Al0.5Ti1.5(PO4)3”, Electrochemistry, 79 No11 (2011) pp.865-868.
Publication List in last 5 years (Glass materials)
(1)Koichi Kajihara, Shungo Kuwatani, Kiyoshi Kanamura, “Sol?Gel Synthesis of Rare-Earth and Phosphorus Codoped Monolithic Silica Glasses from a Cosolvent-Free Phase-Separating System”, Applied Physics Express, 5 (2012) 012601 1-3.
(2)Koichi Kajihara, Arata Sakuragi, Yuta Igarashi and Kiyoshi Kanamura, “Synthesis of monolithic deep-ultraviolet-transparent polysilsesquioxane glasses from organotrimethoxysilane?water binary system”, RSC Advances, (2012) Issue 24, pp.8946?8948.
(3)Yuta Igarashi, Koichi Kajihara, and Kiyoshi Kanamura, “Thiol-Containing Polysilsesquioxane Liquid and Photocurable Sulfur Containing Transparent OrganicInorganic Hybrid Monoliths Obtained via Cosolvent-Free Hydrolytic Polycondensation”, Bull. Chem. Soc. Jpn., Vol. 86, No.7 (2013) pp.880-883.
(4)Tatsuya Mori, Koichi Kajihara, Kiyoshi Kanamura, Yoshitake Toda, Hidenori Hiramatsu and Hideo Hosono, “Indium-Based Ultraviolet-Transparent Electroconductive Oxyfluoride InOF: Ambient-Pressure Synthesis and Unique Electronic Propertiesin Comparison with In2O3”, Journal of the American Chemical Society, (2013) 135 (35), pp.13080?13088.
(5)Ken KANEKO, Koichi KAJIHARA and Kiyoshi KANAMURA, “Cosolvent-free sol?gel synthesis of rare-earth and aluminum codoped monolithic silica glasses”, Journal of the Ceramic Society of Japan, 121 [3] (2013) pp.299-302.
(6)Kotomi Suzuki, Koichi Kajihara, and Kiyoshi Kanamura, “Cosolvent-Free Sol?Gel Synthesis and Optical Characterization of Silica Glasses Containing LaF3 and (La,Er)F3 Nanocrystals”, Bulletin of the Chemical Society of Japan, 87(7) (2014) pp.765-772
(7)Koichi Kajihara, Shiori Yamaguchi, Ken Kaneko and Kiyoshi Kanamura, “Highly transparent, bright green, sol?gel-derived monolithic silica-(Tb,Ce)PO4 glass-ceramic phosphors”, RSC Advances, (2014) 4, pp.26692?26696.
(8)Fuji Funabiki, Koichi Kajihara, Ken Kaneko, Kiyoshi Kanamura, Hideo Hosono, Characteristic Coordination Structure around Nd Ions in Sol?Gel-Derived Nd?Al-Codoped Silica Glasses, Jounal of Physical Chemistry B, vol. 118, (2014) pp.8792-8797
(9)Shiori Yamaguchi, Kenji Moriyama, Koichi Kajihara and Kiyoshi Kanamura, “Deep-ultraviolet transparent monolithic sol?gel derived silica?REPO4 (RE = Y, La?Lu except Pm) glass-ceramics: characterization of the crystal structure and ultraviolet absorption edge, and application to narrow-band UVB phosphors”, Journal of Materials Chemistry C, Issue 38(2015,3)pp.9894-9901.
(10)Arata Sakuragi, Yuta Igarashi, Koichi Kajihara and Kiyoshi Kanamura, “Synthesis of silanol-rich long-life polysilsesquioxane liquids by cosolvent-free hydrolytic polycondensation of organotrimethoxysilanes followed by aging”, Dalton Transactions, Issue 7, (2016), 45, pp.3151-3157.  
(11)Yuko Fukuda, Koichi Kajihara, Shiori Kakinoki, Junhyeok Jang, Hirohisa Yoshida and Kiyoshi Kanamura, “Poly(n-alkylsilsesquioxane) liquids prepared by cosolvent-free hydrolytic polycondensation of n-alkyltrialkoxysilanes: effects of liquid?liquid phase separation during aging and alkyl chain length on structure and viscosity”, Dalton Trans.,(2016) 45, pp.15532?15540.
受 賞平成4年4月 “電池電極反応と電池高性能化のための基礎研究”により、電気化学協会佐野進歩賞
平成12年7月 電気自動車研究会 優秀論文賞
平成17年5月 Electrochemical Society, Energy Technology Division, Research Award
BCSJ Award Article (2009, December)
BCSJ Award Article (2014, July)
Japanese Association of Inorganic Phosphorous Chemistry, Award (2011, September)
主な学会活動表面科学会編集委員(平成10年度-平成13年度)
電気化学会編集員(平成11年度-平成13年度)
電気化学会編集幹事(平成13年度-平成14年度)
電気化学会評議員(平成14年度-平成15年度)
日本化学会誌編集員(平成12年度-平成14年度) 
Chemistry Letter 編集委員(平成15年度-平成17年度)
電気化学会普及委員(平成14年度-平成18年度) 
電気化学会理事(平成16年度) 
セラミックス協会理事(平成17年度-平成18年度) 
日本無機リン化学会理事(平成18年度)
社会等との関わり東京農工大学工学部非常勤講師(平成10年度)
東京理科大学理学部非常勤講師(平成11年度-平成13年度)
佐賀大学理工学部非常勤講師(平成12年度)
東京工業大学応用セラミックス研究所非常勤講師(平成12年度)
山梨大学教育人間科学部非常勤講師(平成13-15年度)
北海道大学触媒化学研究センター非常勤講師(平成13年度)
日本大学理工学部非常勤講師(平成13年度-14年度)
文部科学省 科学技術政策研究所 専門委員(平成13-18年度)
大阪大学大学院工学研究科非常勤講師(平成15年度)
京都大学エネルギー理工学研究所客員教授(平成16年度)
九州大学非常勤講師(平成17年度)
名古屋大学非常勤講師(平成18年度)NEDO関連審査委員および評価委員
など
JST A-STEP PO (2018~2023)
JST さきがけ CREST アドバイザー (2015 ~ )
電池JIS案策定委員会 座長 (2025 ~ )
個人のURL
担当科目
  • 基礎ゼミナール
  • エネルギー化学入門
  • エネルギー環境化学
  • エネルギー材料化学
  • エネルギーデバイス化学講究Ⅰ
  • エネルギーデバイス化学講究Ⅱ
  • Advanced Energy Chemistry
  • エネルギーデバイス化学講究Ⅰ
  • エネルギーデバイス化学講究Ⅱ
  • Advanced Energy Chemistry
  • エネルギー化学入門
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