Using in situ NAP-XPS to study In<sub>2</sub>O<sub>3</sub>(111) surface structure, and its interaction with various gas molecules, during thermal hydrogenation of CO<sub>2</sub> to methanol.

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Using in situ NAP-XPS to study In2O3(111) surface structure, and its interaction with various gas molecules, during thermal hydrogenation of CO2 to methanol.

01 April 2020

PIs: Chen Wei
Co-PIs: Zhang Chun, Yan Ning, J Pérez-Ramírez
RF/PhD: Supported in-kind & Ma Zhirui, Lian Xu, Guo Na,

Project ID: FY20-3

Continuation of FY19-9

Incorporated Programmes:

We aim to develop efficient and robust catalyst to drive CO2 reduction and hydrogenation into energy dense fuel. We have 4 teams working synergistically on Electrocatalysts, Integrated Nanocatalysts, and Single-atom Catalysts.

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