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摘要

克莱门斯研究薄膜、界面和纳米结构材料的生长和结构,用于催化、电子和光伏应用。他和他的团队研究纳米结构材料的相变和动力学,并进行氢储存和催化的纳米颗粒工程。最近,他和他的合作者开发了用于将氢有效注入存储介质的纳米入口,用于催化的双相纳米颗粒,用于半导体器件的非晶金属电极,以及用于形成独立的化合物半导体单晶薄膜的提升工艺。
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Optimization
Clemens studies growth and structure of thin film, interface and nanostructured materials for catalytic, electronic and photovoltaic applications. He and his group investigate phase transitions and kinetics in nanostructured materials, and perform nanoparticle engineering for hydrogen storage and catalysis. Recently he and his collaborators have developed nano-portals for efficient injection of hydrogen into storage media, dual-phase nanoparticles for catalysis, amorphous metal electrodes for semiconductor devices, and a lift-off process for forming free-standing, single-crystal films of compound semiconductors.
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