Research Focus
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Surface-enhanced Raman spectroscopy (SERS) is a powerful technique that provides fingerprint vibrational information with ultrahigh sensitivity, even down to single molecular level. However, only a fe...
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Single crystal surfaces are ideal substrates for surface science studies, as they exhibit well-defined surface morphology and electronic state and can perfectly match theoretical calculation to uncove...
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In situ tracking of catalytic processes and capturing their active intermediates under working conditions by various spectroscopic techniques are of significant importance in heterogeneous catalysis. ...
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Surface-enhanced Raman spectroscopy (SERS) is a powerful vibrational spectroscopic technique that allows highly sensitive structural detection of low concentration analytes. It has been widely used in...
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In-situ/operando characterization of intricate electrode/electrolyte interfacial processes in secondary battery systems represents a pivotal research direction in the realm of energy electrochemistry. This pursuit holds significant scientific importance in advancing battery technology towards enhanced energy density, extended lifespan, and heightened safety standards. Our group is devoted to pi...
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Establishment of in-Situ Characterization Method for Interfacial Water, Revealing the Mechanisms of Interfacial Water in Physical Chemitry Processes such as Water Electrolysis and Electrocatalysis.
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Using theoretical simulation techniques such as density functional theory (DFT) and machine learning, we design efficient electrocatalysts for HER/ORR/OER/CO2RR processes; deeply understand the electric double-layer structure, revealing the atomic-level reaction mechanism; and assist in data analysis for Raman spectroscopy.
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Leveraging innovative porous supports and graphdiyne-based materials, we are dedicated to developing high-performance nanocatalysts for the efficient conversion and utilization of carbon dioxide, water, and plastics.
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