Valery Okatenko¹, Anna Loiudice¹, Mark A. Newton¹, Dragos C. Stoian², Anastasia Blokhina¹, Alexander N. Chen¹, Kevin Rossi¹, Raffaella Buonsanti^1*

1 Institut des Sciences et Ingénierie Chimiques, École Polytechnique Fédérale de Lausanne (EPFL), CH-1951 Sion, Valais, Switzerland

2 Swiss-Norwegian Beamline European Synchrotron Radiation Facility

* Corresponding authors emails: Raffaella.buonsanti@epfl.ch

DOI10.24435/materialscloud:ft-s8 [version v1]

Publication date: Jan 06, 2023

How to cite this record

Valery Okatenko, Anna Loiudice, Mark A. Newton, Dragos C. Stoian, Anastasia Blokhina, Alexander N. Chen, Kevin Rossi, Raffaella Buonsanti, Alloying as a strategy to boost the stability of Copper nanocatalysts during electrochemical CO₂ reduction reaction, Materials Cloud Archive 2023.3 (2023), https://doi.org/10.24435/materialscloud:ft-s8

Description

Cu nano catalysts are among the most promising candidates to enable the up-conversion of CO₂ by means of electrochemical reduction. Yet, the lack of stability of Cu nano catalysts during electrochemical CO₂ reduction reaction represents a strong limiting factor in enabling their widespread use at the industrial level. The record gathers data related to the theoretical evaluation of the stability and activity of Cu-rich nano catalysts, in the presence of a second metal, namely Ga, whose amount varies between 5% and 30%.

Materials Cloud sections using this data

Files

File name	Size	Description
CuGa.tar.gz MD5md5:04296506b300047aeff60f3103fcd082	8.1 KiB	tar with example inputs + structures
readme.txt MD5md5:6280c40bee11934242ca8918cd237e37	186 Bytes	readme file

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External references

Keywords

Cu co2rr DFT