To develop thermal stable CeO<sub>2</sub> supported single-atom catalysts (SACs) for the efficient hydrogenation of CO<sub>2</sub> to methanol and other value-added products.

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To develop thermal stable CeO2 supported single-atom catalysts (SACs) for the efficient hydrogenation of CO2 to methanol and other value-added products.

01 April 2020

PIs: J Lu
Co-PIs: J Pérez-Ramírez, S. Kawi, Zeng HC, SJ Pennycook, C Zhang
RF/PhD: Hai Xiao, Xu Haomin, Li Zhan, Sun Bo, Alvin Lim, Jingjing Wang, Jiajia Zhang, Guo Na, Kah Meng Yam

Project ID: FY20-4

We will use the state-of-the art characterisation techniques including STEM and EXAFS, in combination with DFT calculation to understand the structure of SACs and reaction mechanism.

Expansion of FY19-4 and FY19-8

Incorporated Programmes:

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Catalyst
Discovery and Design

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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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Advanced
Characterisation Tools

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Molecular
Modeling

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