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Fields Medical Life Sciences Information Communication Environment Nanotechnology / Materials Energy Manufacturing Technology Social Infrastructure Frontier Liberal Arts Themes Researchers JP Top Nanotechnology / Materials Bio-inspired engineering for energy and biological applications Bio-inspired engineering for energy and biological applications JAPANESEINQUIRY update：2022/09/06     NEXT PREV Features and Uniqueness Our goal is "bio-inspired engineering" to create new functions that exhibit functions beyond the nature systems by learning from their superior functions and incorporating them into creating materials and devices. For example, the development of surface treatment and adhesives learned from mussels, the development of anti-biofouling substrates learned from pitcher plants, the design of non-platinum catalysts for highly active fuel cells (hydrogen, enzymes, microbes, etc.) learned from hemoglobin, and needle-type biosensors learned from biological needles. Practical Application Based on electrochemistry and polymer chemistry, I provide technologies and expertise in the energy, biotechnology, and electrical and electronic fields, including metal-air batteries, fuel cells, surface treatment, adhesion, biosensors, etc. Keywords Bio-inspired materials Biosensor Fuel cell Metal-air battery Electrochemistry Polymer Researchers Frontier Research Institute for Interdisciplinary Sciences Hiroya Abe, Assistant ProfessorPh. D. in Electrochemistry Laboratory Website researchmap Laboratory Website researchmap Related Information https://sites.google.com/site/hiroyaabe1ha/home-1https://researchmap.jp/hiroyaabe Browsing History Common Keywords “HYDRIDE" Researches for Energy Applications [ 折茂 慎一 教授 ] Quantum and Molecular Dynamic Simulations of Transport Phenomena in Fuel Cell [ 徳増 崇 教授 ] Development of Nano-Interface Chemistry for Materials Sciences Using Surface Forces Measurement [ 栗原 和枝 教授 ] Bio-Hybrid MEMS for Medical, Environmental and Food Engineering [ 西澤 松彦 教授 ] Biological Application of Scanning Probe Microscope [ 珠玖 仁 教授 ] Development of Solid-State-Ionics Materials for Energy Conversion, Storage and Utilization [ 髙村 仁 教授 ] Advanced Technology on Flexible Liquid Crystal Displays [ 藤掛 英夫 教授 ] Chemical imaging devices which operate in severe environments [ 武藤 泉 教授 ] Surface scientific approach for developments in fuel cell's catalysts [ 和田山 智正 教授 ] Fuel Cell and Energy Storage Using Ion Conduction in Ceramics [ 川田 達也 教授 ] Metal complex catalysts for energy devices [ 藪 浩 教授 ] Research Profiles ©TOHOKU UNIVERSITY How to Use FAQ For Researchers Site Policy [jp] ©TOHOKU UNIVERSITY Fields Medical Life Sciences Information Communication Environment Nanotechnology / Materials Energy Manufacturing Technology Social Infrastructure Frontier Liberal Arts Fields Themes Researchers 日本語 ENGLISH Close