TAILORED INTERFACES AND NANOMATERIALS FOR RENEWABLE ENERGY, FUELS, AND CHEMICALS

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Welcome to the NanoElectrocatalysis and Sustainable Chemistry (NanoESC) Lab! 

We are a diverse and interdisciplinary team that combines electrochemistry, materials engineering, in situ spectroscopy, and microscopy to elucidate the design principles for discovering and developing novel electrocatalysts for renewable energy conversion, and sustainable fuels and chemicals production.

Electrocatalysis for renewable hydrogen production

Electrocatalysis for renewable hydrogen production
Electrochemical reduction of carbon dioxide

Electrochemical reduction of carbon dioxide
Electrochemical activation & conversion of methane

Electrochemical activation & conversion of methane
Electrocatalysis for fuel cells

Electrocatalysis for fuel cells
Sustainable electrosynthesis of valuable chemicals

Sustainable electrosynthesis of valuable chemicals
Surface nanostructuring

Surface nanostructuring
High entropy alloys for electrocatalysis

High entropy alloys for electrocatalysis
In situ / operando characterisation of materials

In situ / operando characterisation of materials