作者从两个方面分析了影响微环境的关键因素及其作用机制：（1）催化剂的电子结构可以调节中间的吸脱附行为，其界面状态（例如界面电场分布）对内亥姆霍兹层的演化过程有显著影响。（2）电解液环境影响外亥姆霍兹层的结构；阴/阳离子和溶剂的改变不仅会影响离子迁移速 ...

Electrocatalysis is a type of catalysis that results in the modification of the rate of an electrochemical reaction occurring on an electrode surface. The relative electrocatalytic properties of a ...

This class presents the fundamentals of electrochemistry and applies these principles to a variety of electrocatalytic processes, especially those with relevance to sustainable chemical and fuel ...

One of the most important tools in converting chemical energy into electrical energy and vice versa is electrocatalysis, ...

One of the primary drivers of climate change, CO2 emissions, has reached over 35 million tons worldwide. With global annual ...

One of the primary drivers of climate change, CO2 emissions, have reached over 35 million tons worldwide. With global annual ...

His research expertise is in nanostructured materials for electrocatalysis, photocatalysis, batteries and other new energy technologies. He has co-authored more than 485 papers in refereed journals, ...

A group of researchers has made significant progress in developing cost-effective catalysts for the oxygen evolution reaction ...

The Pennsylvania State University and Hiden Analytical are proud to announce the inaugural Hiden Analytical Conference, ...

She is a part of the “Degradation” and “Characterization” projects funded by the Faraday Institution/EPSRC. Her research group focuses on developing advanced new microscopy methods to generate an in ...

A group of researchers has achieved significant progress in developing cost-effective catalysts for the oxygen evolution ...