The Creation of New Energies
and

The Development of
Next Generation Human Resources

We support the Sustainable Development Goals (SDGs)

INFORMATION

2020年5月29日

坪内直人准教授、望月友貴特任助教が一般社団法人日本鉄鋼協会で共同研究賞(山岡賞)を受賞しました。

2020年5月7日

粥川尚之先生が令和2年春の叙勲にて受章されました

2020年4月13日

【急告】中止:6/24第10回エネルギー・マテリアル融合領域シンポジウム

2020年1月10日

中川助教が1st International Symposium “Hydrogenomics” combined with 14th International Symposium Hydrogen&Energyでポスター賞を受賞しました

2019年12月10日

中川祐貴助教が令和元年度日本顕微鏡学会北海道支部学術講演会で北海道支部長賞を受賞しました。

ABOUT

about about

The Center for Advanced Research of Energy and Materials (CAREM) was established to conduct advanced researches related to materials and systems for efficient energy conversion, to provide interdisciplinary education for energy-related science and engineering and to establish integrated network in energy-related research fields.

LABORATORY

マルチスケール機能集積分野

Laboratory of Integrated Function Materials

ナノマテリアルの構造解析

Professor (concurrent) T. Shibayama

Assoc. Prof. N. Sakaguchi
 | Asst. Prof. Y. Kunisada

Our sudy aims at a contribution efficient use of various energy resources. R & D of material devises with high energy conversion rate has been carried out on semiconductors and ceramics. Correlation among the atomic structure, the electronic strauture and the property of material interfaces has studied.

量子エネルギー変換材料

Laboratory of Quantum Energy Coversion Materials

The creation of new materials using quantum beams

Professor T. Shibayama
 | Asst. Prof. Y.Nakagawa

The main research objective of our laboratory is R&D of innovative materials for severe environments, such as heavily corrosive conditions and very high temprature, for the development of advanced atomic energy plant or highly efficient energy conversion system.

光・熱エネルギー変換材料分野

Laboratory pf Photon & Thermal Energy Conversion Materials

光や熱のエネルギーを利用する
材料の開発創製

Professor S. Watanabe

Assoc. Prof. N. Okinaka
 | Asst. Prof. L. Zhang

In advanced high-efficiency energy conversion systems, development of new high-temperature materials possessing high oxidation resistance is required. In this laboratory, research on physical chemistry of advanced materials is mainly performed.

エネルギーメディア変換材料

Laboratory of Energy Media

熱・化学・電気エネルギー変換

Prof.(concurrent) S. Watanabe

Assoc. Prof. T. Nomura

The mission of this laboratory is to produce innovative materials for dense storage, transportation and efficient conversion of energy from the viewpoints of cascade utilization and process integration.

エネルギー変換システム設計

Laboratory of Chemical Energy Conversion Systems

Solving the three problems of resources, energy,
and the environment using the power of chemistry

Professor (concurrent) H. Habazaki

Assoc. Prof. N. Tsubouchi
 | Asst. Prof. H. Kumagai

Our laboratory aims to achieve development goals related to "Sustainable Development Goals (SDGs)" adopted by the UN Summit. We are primarily promoting the development of advanced utilization methods of poor quality and unused chemical resources, and also conducting chemical engineering research on a freshness management system for marine biological resources, including fish and shellfish.

複合量子ビーム超高圧顕微解析研究室

Multi-Quantum Beam
High Voltage Electron Microscope Laboratory

Multi-beam Ultra-high Voltage Electron Microscope

Prof. T. Shibayama
 | Prof. S. Watanabe

Assoc. Prof. N. Sakaguchi
 | Asst. Prof. Y. Nakagawa

Multi-Beam HVEM at Hokkaido University is eligible for Radiation Effect Study & In-Situ Experiment with multi-beams by two ion accelerators and a 1.3-MV HVEM.

中性子材料解析研究室

Neutron Materials Analysis Laboratory

中性子加速器

Prof. M. Ohnuma
 | Prof. T. Kamiyama

Asst. Prof.(concurrent) T. Sato

中性子による材料研究を目標に、中性子生成源やビームライン等の基盤技術の開発、中性子小角散乱やイメージングといった利用方法の開発、中性子やX線の単独/複合利用の材料解析への応用を研究しています。