纳米与界面催化研究组

Revealing the Role of A-site Cation Ordering in Perovskite Anodes for High-Temperature Oxygen Evolution Reaction
Researchers Propose Hydroxyl Adsorption as Selectivity Descriptor for Electrocatalytic Nitrate Reduction to Ammonia
Researchers Reveal Catalytic Role of Zeotype-confined Frustrated Lewis Pairs in Syngas Conversion
Balancing CO2 Adsorption and H2 Activation on Conﬁned ZnOx Species for CO2 Hydrogenation
ZnOx Overlayer Confined on ZnCr2O4 Spinel for Direct Syngas Conversion to Light Olefins
Breakthrough in Zeolite Research: Precise Characterization of Aluminum Pairs and Their Impact on Dealumination
Solid oxide electrolysis cell achieves super-dry reforming of methane
Researchers Reveal the Role of Zeolite Acid Site Accessibility in Syngas Conversion
Researchers Achieve High-Rate and Stable Ammonia Electrosynthesis from Nitrate
Researchers Uncover Dynamic Confinement effect in Stabilizing Active Silver Nanoclusters under CO oxidation Reaction Atmosphere

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RESEARCH INTERESTS: Surface and Interfacial Catalysis Carbon Nanomaterials for Energy Electrocatalytic Conversion of Carbon-Based Resou... 2D Materials & Energy Catalysis Solid-state NMR & Catalytic Chemistry Group

HONORS AWARD: National Catalysis Life-Time Achievement Award of China National Award for Natural Science in 2020 Provincial Award in 2019 Excellent member of Youth Innovation Promotion Association of CAS China Youth Sci & Tech Award

KEY PROJECTS: Electrocatalysis for carbon-based energy Direct conversion of syngas to light olefins Surface and interface catalysis Low-carbon conversion of energy molecules Transformational technologies for clean energy an...

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