Staff
Hidehiro KAMIYA
Vice president, Professor, Ph.D.
kamiya[at]cc.tuat.ac.jp
The characteristics of an aggregate of numerous microparticles ranging in size from several nanometers to several micrometers require a distinct and unique field of study that is separate from that of molecules or bulk solids. Microparticles appear in a variety of fields including organic, inorganic, and biological, and the control of their adhesion and aggregation often becomes the key to the success of new systems. Therefore, we have fundamentally elucidated the aggregation of microparticles, the rearrangement of particle aggregates by forces and heat, and sintering phenomena by investigating the structure, surface state, and interparticle interactions of microparticles using experimental and computational simulations. In addition, we are working on controlling the structure of ceramic nanomaterials and the behavior of ash microparticles during the combustion and gasification of coal and waste solid fuels, among other wide-ranging fields such as materials, energy, and the environment, focusing on the control of particle aggregate structures.
Hidehiro KAMIYA
Vice president, Professor, Ph.D.
kamiya[at]cc.tuat.ac.jp
The characteristics of an aggregate of numerous microparticles ranging in size from several nanometers to several micrometers require a distinct and unique field of study that is separate from that of molecules or bulk solids. Microparticles appear in a variety of fields including organic, inorganic, and biological, and the control of their adhesion and aggregation often becomes the key to the success of new systems. Therefore, we have fundamentally elucidated the aggregation of microparticles, the rearrangement of particle aggregates by forces and heat, and sintering phenomena by investigating the structure, surface state, and interparticle interactions of microparticles using experimental and computational simulations. In addition, we are working on controlling the structure of ceramic nanomaterials and the behavior of ash microparticles during the combustion and gasification of coal and waste solid fuels, among other wide-ranging fields such as materials, energy, and the environment, focusing on the control of particle aggregate structures.
Yohei OKADA
Associate Professor Yohei Okada has transferred to Tokyo University of Agriculture and Technology Institute of Agriculture Division of Applied Biological Chemistry, effective May 1, 2021.
Yohei OKADA
Associate Professor Yohei Okada has transferred to Tokyo University of Agriculture and Technology, Graduate School of Agriculture, Division of Applied Biochemistry, effective May 1, 2021.
Students
D3
Tatsuya SUDO Nanocolloid Chemistry
【JSPS Research Fellow DC2】
Nanocolloid Chemistry
D1
Sota ADACHI Reaction Development
【WISE Program】
Reaction Development
M2
Tatsuya OKUIZUMI Ash Adhesion
Ash Adhesion
Yasuhiro HASHIMOTO Reaction Development Nanocolloid Chemistry
Reaction Development Nanocolloid Chemistry
Tsuyoshi FUJIMOTO Ash Adhesion
Ash Adhesion
M1
Yusuke KATO Nanocolloid Chemistry
Nanocolloid Chemistry
Masahiko SAGAWA Nanocolloid Chemistry
Nanocolloid Chemistry
B4
Ayumi UCHIYAMA Nanocolloid Chemistry
Nanocolloid Chemistry
Yutaro TSUCHIYA Ash Adhesion
Ash Adhesion