Cu/CuOx Nanoclusters on ZnO(1010): Electronic, Catalytic, Morphological Structure

Ziyu Zhang; Fei Wang; Maomin Ren; Frank Womack; Minh Le; Yaroslav Losovyi; Richard Kurtz; Phillip Sprunger; John Flake

Cu/CuOx Nanoclusters on ZnO(1010): Electronic, Catalytic, Morphological Structure

ORAL

Abstract

To develop a high performance catalyst for CO2 reduction, we tried bi-layers based on CuOx (x=0, 1, 2) and ZnO. The highest yield rate is found for Cu(I) on ZnO. The repeatability of the experiment illustrates that the Cu(I) catalytic clusters are stable in the air, due to the interface of the bilayer.STM and ARPUS results reveal that the preparation process are highly dependent on the annealing temperature and cluster size. EELS and UPS data show that CO adsorption is distinctly different between Cu and CuOx clusters on ZnO, which explains the different yield rate. Based on TDS and EELS of adsorption such as CO2, H2O, combined with DFT calculation, the mechanism of methanol synthesis is given by introducing intermediate products.

^*Center for Atomic-lever Catalyst Design, DOE

March 22, 2011, 2:54 PM – March 22, 2011, 3:06 PM

Authors

Ziyu Zhang
- Dept. of Physics, Louisiana State University
Fei Wang
- Dept. of Physics, Louisiana State University
Maomin Ren
- Dept. of Chemical Engineering, Louisiana State University
Frank Womack
- Dept. of Physics, Louisiana State University
Minh Le
- Dept. of Chemical Engineering, Louisiana State University
Yaroslav Losovyi
- CAMD, Louisiana State University
Richard Kurtz
- Dept. of Physics, Louisiana State University
- Louisiana State University
Phillip Sprunger
- Department of Physics and Astronomy and Center for Advanced Microstructures and Devices, Louisiana State University
- Louisiana State University
- Dept. of Physics, Louisiana State University
John Flake
- Dept. of Chemical Engineering, Louisiana State University