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Iwahori Kenji

岩堀 健治

Graduate School of Engineering Center for Future Innovation, Assistant Professor

Education

  • - 2000/03, Okayama University, Graduate School, Division of National Science and Technology

Research History

  • 2020/04/01 - Present, Osaka University Graduate School of Engineering ., Assistant Professor
  • 2018/10/01 - 2020/03/31, Osaka University Graduate School of Engineering Strategy Management and Support Office, Assistant Professor

Research Areas

  • Life sciences, Applied microbiology
  • Nanotechnology/Materials, Molecular biochemistry
  • Nanotechnology/Materials, Organic functional materials
  • Nanotechnology/Materials, Nanobioscience

Professional Memberships

  • 日本生物物理学会
  • JAPAN SOCIETY FOR BIOSCIENCE, BIOTECHNOLOGY, AND AGROCHEMISTRY
  • The Society for Biotechnology, Japan

Papers

  • Silicon-Dioxide-Specific Peptides for Biological Nanofabrication: Selecting Aptamers for Target-Specific Ferritin Supramolecule Delivery, Naofumi Okamoto,Kenji Iwahori,Ichiro Yamashita, IEEE NANOTECHNOLOGY MAGAZINE, IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC, Vol. 13, No. 6, p. 43-48, 2019/12
  • Dispersed Gold Nanoparticle Array Produced by Apoferritins Utilizing Biomineralization and Chemical Conversion, Kazuyuki Nobusawa,Naofumi Okamoto,Karen Siew Ling Chong,Xi Lin,Kenji Iwahori,Ichiro Yamashita, ACS OMEGA, AMER CHEMICAL SOC, Vol. 2, No. 4, p. 1424-1430, 2017/04
  • Synthesis and Application of Compound Semiconductor NPs by Using Bio-mineralization and Bio-template, Kenji IWAHORI, KAGAKU TO SEIBUTSU, Japan Society for Bioscience, Biotechnology, and Agrochemistry, Vol. 55, No. 3, p. 166-173, 2017
  • Synthesizing CdSe nanoparticles by using a low concentration of cadmium ions and the apoferritin protein cage of marine pennate diatoms, Kenji Iwahori,Midori Yamane,Sakiko Fujita,Ichiro Yamashita, MATERIALS LETTERS, ELSEVIER, Vol. 160, p. 154-157, 2015/12
  • Solid-phase PEGylation of an immobilized protein cage on polyelectrolyte multilayer, Koichiro Uto,Kazuya Yamamoto,Kenji Iwahori,Takao Aoyagi,Ichiro Yamashita, COLLOIDS AND SURFACES B-BIOINTERFACES, ELSEVIER SCIENCE BV, Vol. 113, p. 338-345, 2014/01
  • A size controlled synthesis of CuS nano-particles in the protein cage, apoferritin, Kenji Iwahori,Rie Takagi,Naoko Kishimoto,Ichiro Yamashita, MATERIALS LETTERS, ELSEVIER, Vol. 65, No. 21-22, p. 3245-3247, 2011/11
  • Sterically controlled docking of gold nanoparticles on ferritin surface by DNA hybridization, B Zheng,M Uenuma,K Iwahori,N Okamoto,M Naito,Y Ishikawa,Y Uraoka,I Yamashita, Nanotechnology, IOP Publishing, Vol. 22, No. 27, p. 275312-275312, 2011/07/08
  • Ferritin in the field of nanodevices, Ichiro Yamashita,Kenji Iwahori,Shinya Kumagai, BIOCHIMICA ET BIOPHYSICA ACTA-GENERAL SUBJECTS, ELSEVIER, Vol. 1800, No. 8, p. 846-857, 2010/08
  • Site-directed delivery of ferritin-encapsulated gold nanoparticles, B Zheng,I Yamashita,M Uenuma,K Iwahori,M Kobayashi,Y Uraoka, Nanotechnology, IOP Publishing, Vol. 21, No. 4, p. 045305-045305, 2010/01/29
  • Circularly Polarized Luminescent CdS Quantum Dots Prepared in a Protein Nanocage, Masanobu Naito,Kenji Iwahori,Atsushi Miura,Midori Yamane,Ichiro Yamashita, ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, WILEY-V C H VERLAG GMBH, Vol. 49, No. 39, p. 7006-7009, 2010
  • Bio-templated CdSe nanoparticle synthesis in a cage shaped protein, Listeria-Dps, and their two dimensional ordered array self-assembly, Mitsuhiro Okuda,Yoko Suzumoto,Kenji Iwahori,Sebyung Kang,Masaki Uchida,Trevor Douglas,Ichiro Yamashita, CHEMICAL COMMUNICATIONS, ROYAL SOC CHEMISTRY, Vol. 46, No. 46, p. 8797-8799, 2010
  • Ferritin as a bionano-particulate emulsifier, Syuji Fujii,Atsushi Aichi,Masahiro Muraoka,Naoko Kishimoto,Kenji Iwahori,Yoshinobu Nakamura,Ichiro Yamashita, JOURNAL OF COLLOID AND INTERFACE SCIENCE, ACADEMIC PRESS INC ELSEVIER SCIENCE, Vol. 338, No. 1, p. 222-228, 2009/10
  • Critical Amino Acid Residues for the Specific Binding of the Ti-Recognizing Recombinant Ferritin with Oxide Surfaces of Titanium and Silicon, Tomohiro Hayashi,Ken-Ichi Sano,Kiyotaka Shiba,Kenji Iwahori,Ichiro Yamashita,Masahiko Hara, LANGMUIR, AMER CHEMICAL SOC, Vol. 25, No. 18, p. 10901-10906, 2009/09
  • Janus-like Protein Cages. Spatially Controlled Dual-Functional Surface Modifications of Protein Cages, Sebyung Kang,Peter A. Suci,Chris C. Broomell,Kenji Iwahori,Mime Kobayashi,Ichiro Yamashita,Mark Young,Trevor Douglas, NANO LETTERS, AMER CHEMICAL SOC, Vol. 9, No. 6, p. 2360-2366, 2009/06
  • Size-controlled one-pot synthesis of fluorescent cadmium sulfide semiconductor nanoparticles in an apoferritin cavity, K Iwahori,I Yamashita, Nanotechnology, IOP Publishing, Vol. 19, No. 49, p. 495601-495601, 2008/12/10
  • Effect of N-terminal residues on the structural stability of recombinant horse L-chain apoferritin in an acidic environment, Keiko Yoshizawa,Yumiko Mishima,Sam-Yong Park,Jonathan G. Heddle,Jeremy R. H. Tame,Kenji Iwahori,Mime Kobayashi,Ichiro Yamashita, JOURNAL OF BIOCHEMISTRY, OXFORD UNIV PRESS, Vol. 142, No. 6, p. 707-713, 2007/12
  • Direct production of a two-dimensional ordered array of ferritin-nanoparticles on a silicon substrate, Takuro Matsui,Nozomu Matsukawa,Kenji Iwahori,Ken-Ichi Sano,Kiyotaka Shiba,Ichiro Yamashita, JAPANESE JOURNAL OF APPLIED PHYSICS PART 2-LETTERS & EXPRESS LETTERS, INST PURE APPLIED PHYSICS, Vol. 46, No. 25-28, p. L713-L715, 2007/07
  • Cadmium sulfide nanoparticle synthesis in Dps protein from Listeria innocua, Kenji Iwahori,Takahiro Enomoto,Hirotoshi Furusho,Atsushi Miura,Kazuaki Nishio,Yumiko Mishima,Ichiro Yamashita, CHEMISTRY OF MATERIALS, AMER CHEMICAL SOC, Vol. 19, No. 13, p. 3105-3111, 2007/06
  • Bio-template synthesis of nanoparticle by cage-shaped protein supramolecule, apoferritin, Kenji Iwahori,Ichiro Yamashita, JOURNAL OF CLUSTER SCIENCE, SPRINGER/PLENUM PUBLISHERS, Vol. 18, No. 2, p. 358-370, 2007/06
  • Fabrication of CdS nanoparticles in the bio-template, apoferritin cavity by a slow chemical reaction system, K Iwahori,I Yamashita, Journal of Physics: Conference Series, IOP Publishing, Vol. 61, p. 492-496, 2007/03/01
  • Realizing a two-dimensional ordered array of ferritin molecules directly on a solid surface utilizing carbonaceous material affinity peptides, Takuro Matsui,Nozomu Matsukawa,Kenji Iwahori,Ken-Ichi Sano,Kiyotaka Shiba,Ichiro Yamashita, LANGMUIR, AMER CHEMICAL SOC, Vol. 23, No. 4, p. 1615-1618, 2007/02
  • Electrostatic placement of nanodots onto silicon substrate using ferritin protein supramolecules with control of electrostatic interaction in solution, Shinya Kumagai,Shigeo Yoshii,Kiyohito Yamada,Nozomu Matsukawa,Kenji Iwahori,Ichiro Yamashita, JAPANESE JOURNAL OF APPLIED PHYSICS PART 1-REGULAR PAPERS BRIEF COMMUNICATIONS & REVIEW PAPERS, INST PURE APPLIED PHYSICS, Vol. 45, No. 10B, p. 8311-8316, 2006/10
  • Fabrication of gold sulfide nanoparticles using the protein cage of apoferritin, Keiko Yoshizawa,Kenji Iwahori,Kenji Sugimoto,Ichiro Yamashita, CHEMISTRY LETTERS, CHEMICAL SOC JAPAN, Vol. 35, No. 10, p. 1192-1193, 2006/10
  • The optimization of CdSe nanoparticles synthesis in the apoferritin cavity, Kenji Iwahori,Takuya Morioka,Ichiro Yamashita, PHYSICA STATUS SOLIDI A-APPLICATIONS AND MATERIALS SCIENCE, WILEY-V C H VERLAG GMBH, Vol. 203, No. 11, p. 2658-2661, 2006/09
  • Electrostatic placement of single ferritin molecules, Shinya Kumagai,Shigeo Yoshii,Kiyohito Yamada,Nozomu Matsukawa,Isamu Fujiwara,Kenji Iwahori,Ichiro Yamashita, Applied Physics Letters, AIP Publishing, Vol. 88, No. 15, p. 153103-153103, 2006/04/10
  • Mechanism Underlying Specificity of Proteins Targeting Inorganic Materials, Tomohiro Hayashi,Ken-Ichi Sano,Kiyotaka Shiba,Yoshikazu Kumashiro,Kenji Iwahori,Ichiro Yamashita,Masahiko Hara, Nano Letters, American Chemical Society (ACS), Vol. 6, No. 3, p. 515-519, 2006/03
  • Synthesis of Co3O4Nanoparticles Using the Cage-Shaped Protein, Apoferritin, Rikako Tsukamoto,Kenji Iwahori,Masahiro Muraoka,Ichiro Yamashita, Bulletin of the Chemical Society of Japan, The Chemical Society of Japan, Vol. 78, No. 11, p. 2075-2081, 2005/11
  • Fabrication of ZnSe Nanoparticles in the Apoferritin Cavity by Designing a Slow Chemical Reaction System, Kenji Iwahori,Keiko Yoshizawa,Masahiro Muraoka,Ichiro Yamashita, Inorganic Chemistry, American Chemical Society (ACS), Vol. 44, No. 18, p. 6393-6400, 2005/09
  • Endowing a Ferritin-Like Cage Protein with High Affinity and Selectivity for Certain Inorganic Materials, Ken-Ichi Sano,Kumiko Ajima,Kenji Iwahori,Masako Yudasaka,Sumio Iijima,Ichiro Yamashita,Kiyotaka Shiba, Small, Wiley, Vol. 1, No. 8-9, p. 826-832, 2005/08
  • Fabrication of nickel and chromium nanoparticles using the protein cage of apoferritin, Mitsuhiro Okuda,Kenji Iwahori,Ichiro Yamashita,Hideyuki Yoshimura, Biotechnology and Bioengineering, Wiley, Vol. 84, No. 2, p. 187-194, 2003/10/20
  • Molecular diversity of cytochrome oxidase among Acidithiobacillus ferrooxidans strains resistant to molybdenum, mercury, sulfite and 2,4-dinitrophenol, Tsuyoshi Sugio,Kenji Iwahori,Masaki Takai,Fumiaki Takeuchi,Kazuo Kamimura, Hydrometallurgy, Vol. 71, No. 1-2, p. 159-164, 2003/10
  • Volatilization of Mercury under Acidic Conditions from Mercury-polluted Soil by a Mercury-resistant Acidithiobacillus ferrooxidans SUG 2-2, Fumiaki Takeuchi,Kenji Iwahori,Kazuo Kamimura,Atsunori Negishi,Terunobu Maeda,Tsuyoshi Sugio, Bioscience, Biotechnology and Biochemistry, Vol. 65, No. 9, p. 1981-1986, 2001/09
  • Cytochrome c oxidase purified from a mercury-resistant strain of Acidithiobacillus ferrooxidans volatilizes mercury, Tsuyoshi Sugio,Kenji Iwahori,Fumiaki Takeuchi,Atsunori Negishi,Terunobu Maeda,Kazuo Kamimura, Journal of Bioscience and Bioengineering, Vol. 92, No. 1, p. 44-49, 2001
  • Ferrous iron-dependent volatilization of mercury by the plasma membrane of Thiobacillus ferrooxidans, K. Iwahori,F. Takeuchi,K. Kamimura,T. Sugio, Applied and Environmental Microbiology, Vol. 66, No. 9, p. 3823-3827, 2000
  • Isolation and some properties of Thiobacillus ferrooxidans strains with differing levels of mercury resistance from natural environments, Fumiaki Takeuchi,Kenji Iwahori,Kazuo Kamimura,Tsuyoshi Sugio, Journal of Bioscience and Bioengineering, Vol. 88, No. 4, p. 387-392, 1999
  • Isolation and some properties of a strain of the iron-oxidizing bacterium Thiobacillus ferrooxidans resistant to 2,4-dinitrophenol, Tsuyoshi Sugio,Akira Fujioka,Mikio Tsuchiya,Naoki Shibusawa,Kenji Iwahori,Kazuo Kamimura, Journal of Fermentation and Bioengineering, Vol. 86, No. 1, p. 134-137, 1998
  • Isolation and Some Properties of Cytochrome c Oxidase Purified from a Bisulfite Ion Resistant Thiobacillus ferrooxidans Strain, OK1-50, Kenji Iwahori,Kazuo Kamimura,Tsuyoshi Sugio, Bioscience, Biotechnology and Biochemistry, Vol. 62, No. 6, p. 1081-1086, 1998/01/01
  • Isolation and Some Properties of an Iron-Oxidizing Bacterium Thiobacillus ferrooxidans Resistant to Bisulfite Ion, Tsuyoshi Sugio,Ikuko Makino,Kenji Iwahori,Satomi Uemura,Masaki Takai,Tatsuo Tano, Bioscience, Biotechnology and Biochemistry, Vol. 59, No. 3, p. 435-438, 1995
  • Sensitivity of iron-oxidizing bacteria, Thiobacillus ferrooxidans and Leptospirillum ferrooxidans, to bisulfite ion, T. Sugio,S. Uemura,I. Makino,K. Iwahori,T. Tano,R. C. Blake, Applied and Environmental Microbiology, Vol. 60, No. 2, p. 722-725, 1994
  • Inhibition of Iron-oxidizing Activity by Bisulfite Ion in Thiobacillus ferrooxidans, Tsuyoshi Sugio,Kenji Iwahori,Satomi Uemura,Ikuko Makino,Tatsuo Tano, Bioscience, Biotechnology, and Biochemistry, Vol. 58, No. 11, p. 2109-2110, 1994

Misc.

  • 含塩金属廃液からのダイレクト金属回収とナノマテリアル作製技術の創成, 2020
  • 分子接合によるカーボンナノチューブ凝集体の熱伝導率制御の可能性, Vol. 65th, 2018
  • 改良ウマフェリチンによる低濃度Cdイオンの取り込みとCdSeナノ粒子の作製, Vol. 67th, 2015
  • ケイ藻由来フェリチンと低濃度CdイオンによるCdSeナノ粒子の作製, Vol. 67th, 2015
  • 改良ウマフェリチンによる鉄イオン取り込みの増強, Vol. 66th, 2014
  • ケイ藻由来フェリチンの大量発現系の構築と緒性質の検討, Vol. 66th, 2014
  • Nanoparticles Synthesized and Delivered by Protein in the Field of Nanotechnology Applications, Ichiro Yamashita,Kenji Iwahori,Bin Zheng,Shinya Kumagai, Coordination Chemistry in Protein Cages: Principles, Design, and Applications, p. 305-328, 2013/04
  • Fabrication and application of bio-nanomaterial by biotemplates, Kenji Iwahori,Ichiro Yamashita, Kobunshi, Vol. 62, No. 2, p. 73-75, 2013/02
  • 生体高分子を基盤とした無機マテリアル創製 バイオテンプレートを用いたナノマテリアル作製と応用展開, Vol. 62, No. 2, 2013
  • 球殻状タンパク質フェリチンによるタンタルナノ粒子の作製, Vol. 73rd, 2012
  • タンパク質-ナノ粒子複合体による新機能発現とナノ電子デバイス作製, Vol. 63rd, 2011
  • 円偏光発光性キラル超分子の創成と機能創発, Vol. 91st, No. 1, 2011
  • 蛋白質の中で作る円偏光発光性量子ドット, Vol. 22, No. 6, 2011
  • 球殻状タンパク質Apoferritinへの硫化銀ナノ粒子作製と特徴, Vol. 62nd, 2010
  • タンパク質テンプレートを用いた化合物半導体ナノ粒子作製とナノハンドリングシステムの構築, Vol. 49th, 2010
  • 球殻状タンパク質を鋳型として合成された硫化銅ナノ粒子の作製法とナノ粒子の特徴, Vol. 61st, 2009
  • 温度応答性ブロックポリマーのフェリチンタンパク質への異方的修飾と特性評価, Vol. 58, No. 1 Disk1, 2009
  • 非対称的に高分子修飾されたバイオナノドットの創製と特性評価, Vol. 58, No. 2 Disk1, 2009
  • 温度応答性ブロックポリマーを異方的修飾したフェリチンタンパク質の調製とその特性評価, Vol. 58, No. 2 Disk1, 2009
  • 自己集合制御を指向したフェリチンタンパク質の非対称PEG修飾, Vol. 58, No. 1 Disk1, 2009
  • 鎖長制御された温度応答性高分子を異方的に修飾したフェリチンタンパク質の創製と評価, Vol. 2009, 2009
  • 階層横断生命科学-異分野融合的研究の新展開に向けて-タンパク質バイオナノテンプレートとナノ粒子作製, 2009
  • キラルナノケージを利用した円偏光発光性半導体微粒子の創成, Vol. 12th, 2009
  • バイオテンプレートによるナノ粒子作製とバイオナノプロセス, Vol. 6th, 2008
  • タンパク質を鋳型に合成された化合物半導体バイオナノドットの分光特性, Vol. 55th, No. 3, 2008
  • バイオミネラリゼーションによるナノ粒子及びナノワイヤー作製, Vol. 55th, No. 0, 2008
  • タンパク質を鋳型に合成された半導体ナノ粒子の分光特性, Vol. 69th, No. 3, 2008
  • 基板上に固定化されたフェリチンタンパク質の高分子異方的修飾と機能評価, Vol. 57, No. 2 Disk1, 2008
  • フェリチンタンパク質固定化膜を利用した金属ナノ粒子の合成と配列制御, Vol. 57, No. 1 Disk1, 2008
  • タンパク鋳型中で形成された半導体ナノ粒子の線形および非線形分光特性, Vol. 2008, 2008
  • 球殻状タンパク質を用いた蛍光発光ナノ粒子の作製とバイオミネラリゼーション機構の解明, Vol. 60th, 2008
  • 熱酸化シリコン基板上への直接フェリチンナノ粒子二次元規則配列の作製, Vol. 54th, No. 3, 2007
  • かご状超分子タンパク質を鋳型に合成した化合物半導体バイオナノドットの分光特性, Vol. 68th, No. 3, 2007
  • Direct Observation of the Interaction between the Ferritin Endowed with Ti-binding Peptide and the Target: The Mechanism of Specificity and Selectivity, 林智広,佐野健一,佐野健一,芝清隆,芝清隆,岩堀健治,岩堀健治,山下一郎,山下一郎,山下一郎,原正彦,原正彦, 表面科学, Vol. 28, No. 7, 2007
  • 球殻状タンパク質を用いた化合物半導体ナノ粒子の作製とバイオミネラリゼーション機構の解明, Vol. 59th, 2007
  • AFMを用いたTi認識フェリチンの選択性の直接計測, Vol. 53rd, No. 3, 2006
  • ナノギャップ電極によるCdSeフェリチン分子の電気伝導特性評価, Vol. 67th, No. 3, 2006
  • 化合物半導体バイオナノドットの分光特性, Vol. 2006, 2006
  • カーボンナノ材料認識フェリチンを用いたナノ粒子二次元規則配列の作製, Vol. 53rd, No. 3, 2006
  • タンパク質超分子とナノテクノロジー, No. 164, 2005
  • 蛋白質超分子由来半導体ナノドットの合成と分光特性, Vol. 2005, 2005
  • Bionanoprocess: Fabrication of Novel Nano-electronic Device using Protein Supramolecule, 三島由美子,岩堀健治,村岡雅弘,寒川誠二,山下一郎,山下一郎,山下一郎, Bio Industry, Vol. 22, No. 10, 2005
  • The practical application of the nano biotechnology . On the bio nano process ., 杉本健二,村岡雅弘,岩堀健治,山下一郎, ケミカルエンジニヤリング, Vol. 50, No. 5, 2005
  • 2D crystallization of ferritin molecules by means of target-specific affinity peptides, 松井拓郎,松川望,奥田充宏,岩堀健治,加瀬大介,佐野健一,芝清隆,山下一郎,山下一郎, 日本結晶成長学会誌, Vol. 32, No. 3, 2005
  • 球殻状タンパク質アポフェリチン内への化合物半導体ナノ粒子の作製とバイオミネラリゼーション機構の解明, Vol. 2005, 2005
  • ZnSe-フェリチンの基板上固定とZnOナノ粒子作製の検討, Vol. 66th, No. 3, 2005
  • Nine Doors to Nanobiotechnology. Fabrication of Nanostructures. Fabricating Ultra-ULSI by Biotechnology., 村岡雅弘,岩堀健治,山下一郎, 化学, Vol. 59, No. 1, 2004
  • ナノテクノロジーの最新開発動向 バイオ分野のナノテクノロジー たんぱく質でテバイスを作製する, Vol. 89, No. 10, 2004
  • タンパク質を用いた電子デバイス作製, Vol. 2004, 2004
  • Nano-electronics Device Fabricated by “Bio-Nano-Process”, 岩堀健治,村岡雅弘,山下一郎, 化学工業, Vol. 54, No. 6, 2003
  • バイオナノプロセス:タンパク質超分子のナノテクノロジーを利用する, Vol. 52, No. 6, 2003
  • リコンビナントL-ferritinによるナノ粒子の2次元結晶化, Vol. 48th, No. 3, 2001
  • ミュータントL-ferritinによるニッケルナノ粒子作製, Vol. 62nd, No. 3, 2001
  • Nano-electronics Device Fabricated by “Bio Nano Process”., 岩堀健治,山下一郎, 電子情報通信学会誌, Vol. 84, No. 7, 2001
  • 鉄酸化細菌Thiobacillus ferrooxidansによる水銀汚染土壌からの水銀気化, Vol. 2000, 2000
  • 水銀耐性鉄酸化細菌T.ferrooxidans SUG2-2株のcytochrome c oxidaseによる水銀の気化, Vol. 2000, 2000
  • 自然環境からの水銀耐性鉄酸化細菌の単離と性質, Vol. 411th, 1999
  • 鉄酸化細菌Thiobacillus ferrooxidansの二価鉄酸化依存性の水銀の気化, Vol. 411th, 1999
  • Purification and property of cytochrome c oxidase derived from sulfurous acid resistant Thiobacillus ferrooxidans Thiobacillus ferrooxidans OK1-50 stock., 岩堀健治,上村一雄,杉尾剛, 日本農芸化学会西日本支部大会およびシンポジウム講演要旨集, Vol. 236th, 1997

Publications

  • 生物模倣技術と新材料・新製品開発への応用, 技術情報協会, ISBN:9784861045363, 2014/07
  • 地球を救うメタルバイオテクノロジー : 微生物と金属資源のはなし, 成山堂書店, ISBN:9784425800018, 2014/06
  • Coordination chemistry in protein cages : principles, design, and applications, Ueno, Takafumi,Yoshihito, Watanabe, Wiley, ISBN:9781118078570, 2013
  • 表面新物質創製, 共立出版, ISBN:9784320033726, 2011/09
  • ナノバイオテクノロジー : 新しいマテリアル,プロセスとデバイス, シーエムシー出版, ISBN:9784781301112, 2009/08
  • メタルバイオテクノロジーによる環境保全と資源回収 : 新元素戦略の新しいキーテクノロジー, シーエムシー出版, ISBN:9784781301174, 2009/03
  • バイオナノプロセス : 溶液中でナノ構造を作るウェット・ナノテクノロジーの薦め, シーエムシー出版, ISBN:9784882319955, 2008/03
  • 電子物性・材料の事典, 朝倉書店, ISBN:4254221509, 2006/09
  • ナノマテリアルハンドブック, エヌ・ティー・エス, ISBN:4860430786, 2005/02
  • 金属ナノ粒子の合成・調製, コントロール技術と応用展開, 技術情報協会, ISBN:4861040558, 2004/12
  • 界面・コロイド/ナノテクノロジー/分子エレクトロニクス/ナノ分析, 丸善, ISBN:4621072412, 2004/03
  • Dictionary of nanotechnology, 川合, 知二, 工業調査会, ISBN:4769371225, 2003/12