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Abstract： 　　Rationally designed nanomaterials hold great promise as next-generation drug delivery systems. Over the years we have developed skillsets in nanoparticle design, c...

 Abstract： The invention of water splitting and oxygen release by early photosynthetic organisms was the cornerstone for the development of our planet´s oxygen-rich a...

　　应吴文彬教授的邀请，10月10日，韩国首尔大学Dr. WANG Lingfei来实验室进行学术交流与访问，并为师生们作题为“Atomic-scale control of ferroelectricity and transport in ult...

Abstract： 　　The 2-azaallyl anion is one of the earliest known intermediates in synthetic organic chemistry. The past decade has witnessed significant renewed interest in semi-s...

Abstract： During the last two decades, due to the rapid advancements in heteroepitaxial growth techniques, it has become feasible to reduce the oxide film thickness to nanometer...

Abstract： Analytical Ultracentrifugation (AUC)is a powerful technique for polymer and colloid analytics invented about 100 years ago by The Svedberg at the university of Uppsala...

Abstract： Biominerals are remarkable materials with complex and often hierarchical structures (see image of sea urchin spine below) and superior physical properties compared to m...

报告摘要： As a promising non-noble-metal material for hydrogen evolution reaction (HER), the MoS2 has received significant research interests. The pristine MoS2 is known to cont...

Abstract： Mechanochemical transduction processes, that is, cascades of events that translate macroscopic forces into chemical reactions, are common in all living organisms.&nbsp...

报告摘要： In recent years, two-dimensional (2D) or quasi-2D materials have attracted numerous interests for their fascinating properties. It is highly desirable to design new fu...

报告摘要： High quality low-dimensional carbon materials, such as carbon nanotube and graphene, is highly desired for both fundamental research and their industrial applications....

　　应郑晓教授的邀请，9月4日，加州大学圣迭戈分校Prof. Massimiliano Di Ventra来实验室进行学术交流与访问，并为师生们作题为“Memcomputing: a brain-inspired topological comp...

　　“简单来讲，你拿一条纱线，拉伸它，就会产生电能。把它们缝进上衣，无需外加电源，人正常呼吸就能产生电信号。”美国德克萨斯大学达拉斯分校纳米研究所卡特·海恩斯博士就...

Abstract： Which features make the brain such a powerful and energy-efficient computing machine? Can we reproduce them in the solid state, and if so, what type of computing parad...

报告摘要： 　　Developing highly efficient electrocatalysts is becoming increasingly important to renewable energy applications, where novel methods to controllably tune the catal...