纳米与界面催化研究组

Researchers Reveal Mechanism of Dynamic Confinement of SAPO-17 Cages on Selectivity Control of Syngas Conversion
Sensitive Long-wave Infrared Detector for Non-contact Human-machine Interaction
Researchers found the dynamic transformation of Cr oxide nanostructures on Au(111) through environment and interface effects
Steering the Reaction Pathway of Syngas-to-Light Olefins with Coordination Unsaturated Sites of ZnGaOx Spinel

HIGHLIGHTS

Researchers Reveal Mechanism of Dynamic Confinement of SAPO-17 Cages on Selectivity Control of Syngas Conversion
Sensitive Long-wave Infrared Detector for Non-contact Human-machine Interaction
Researchers found the dynamic transformation of Cr oxide nanostructures on Au(111) through environment and interface effects
Steering the Reaction Pathway of Syngas-to-Light Olefins with Coordination Unsaturated Sites of ZnGaOx Spinel
Water-in-salt Ambipolar Redox Electrolyte Boosts High Pseudocapacitive Performance of Microsupercapacitors
Direct synthesis of isoparaffin-rich gasoline from syngas

MORE +

MORE +NEWS

MORE +TEAM ALBUM

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 Award for Natural Science in 2020 Provincial Award in 2019 Excellent member of Youth Innovation Promotion Association of CAS China Youth Sci & Tech Award Alwin Mittasch Prize

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...

LINKS:

DICP SKLC NSFC CAS MOST