Yamamoto Kimihisa

ヤマモトキミヒサ | Yamamoto Kimihisa

Affiliation and department：
Job title： Professor
Other affiliations (1)：

Tokyo Institute of Technology Interdisciplinary Graduate School of Science and Engineering

Research field (1)： Inorganic and coordination chemistry

Research theme for competitive and other funds (28)：

2021 - 2026 On-demand synthesis of sub-nano hybrid alloy particles based on the periodic table
2021 - 2022 超多元合金の革新的機能開拓と触媒への展開
2015 - 2020 Creation of Superatoms Based on the Precision Inorganic Synthesis and Elucidation of its Function
2015 - 2016 デンドリマーリアクターを用いたサブナノ粒子反応場の創出
2015 - 2016 デンドリマーリアクターを利用したサブナノ新金属粒子の創製と機能開発

2012 - 2015 Synthesis of Dendritic Supramolecular Polymers

2009 - 2015 Coordination Programming: Science of Molecular Superstructures towards Chemical Devices

2009 - 2014 Coordination Programming based on Dendrimers

2007 - 2010 Synthesis of Nano-materials of Fine-controlled Hetero-metal Assembly for Cooperative Function of Metal-complexes

2007 - 2008 金属集積分子カプセルを用いた精密組織化

2006 - 2006 金属集積分子カプセルを用いた精密組織化

2003 - 2004 Suplamolecules with Fine Controlled Metal Assembly for a New Catalyst based on Multi-electron Transfer

2003 - 2003 単分散クラスター超分子の単電子デバイス機能の開発

2003 - 2003 金属集積の自在制御による超分子錯体の構築

2001 - 2002 Development of Polymeric Electrode Materials on Proton Battery for Next Generation

2001 - 2002 酸素分子シンクロナイゼーションの構築

2000 - 2001 Macromolecular Synthesis by Air Oxidative Polymerization through Multi-electron Transfer

2000 - 2000 π共役集積構造を利用したプロトン共役多電子系の構築

1999 - 2000 Development of Oxygen Electrode for Polymer Fuel Cell Worked under Neutral and Room Temperature Conditions

1999 - 1999 酸素分子シンクロナイゼーションの構築

1999 - 1999 π共役集積構造を利用したプロトン共役多電子系の構築

1998 - 1998 π共役集積構造を利用したプロトン共役多電子系の構築

1997 - 1998 Synthesis of Polyarylene sulfonium as a Novel Polymer and Its Properties based on the Hyper-polarizedpi-Conjugate Structure

1997 - 1998 Development of Thermostable Polymer Battery with Large Capacity

1996 - 1998 One-Step Multi-electron Transfer for Molecular Conversion

1995 - 1996 Molecular Conversion Using One-Step Multi-electron Transfer Complex

1993 - 1994 Optical Characteritics of Hyperpolarized Polysulfonium

1992 - 1994 Developmental Research on the New Synthesis of Poly (arylene thioether) and Its Performance

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Papers (1)：

Masanori Wakizaka, Wang-Jae Chun, Takane Imaoka, Kimihisa Yamamoto. Metallic Tungsten Nanoparticles That Exhibit an Electronic State Like Carbides during the Carbothermal Reduction of WCl6 by Hydrogen. Inorganic Chemistry. 2020. 59. 21. 15690-15695

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