Electrochemical Activation of CO 2 through Atomic Ordering Transformations of AuCu Nanoparticles
Kavli Energy NanoScience Institute · University of California, Berkeley · +3 more institutions
Abstract
Precise control of elemental configurations within multimetallic nanoparticles (NPs) could enable access to functional nanomaterials with significant performance benefits. This can be achieved down to the atomic level by the disorder-to-order transformation of individual NPs. Here, by systematically controlling the ordering degree, we show that the atomic ordering transformation, applied to AuCu NPs, activates them to perform as selective electrocatalysts for CO2 reduction. In contrast to the disordered alloy NP, which is catalytically active for hydrogen evolution, ordered AuCu NPs selectively converted CO2 to CO at faradaic efficiency reaching 80%. CO formation could be achieved with a reduction in…
Citation impact
- FWCI
- 19.46
- Percentile
- 100%
- References
- 48
Authors
9- DKDohyung KimCorresponding
Kavli Energy NanoScience Institute, University of California, Berkeley
- CXChenlu Xie
University of California, Berkeley
- NBNigel Becknell
University of California, Berkeley
- YYYi Yu
University of California, Berkeley
- MKMohammadreza Karamad
SLAC National Accelerator Laboratory, Stanford University
Topics & keywords
- Overpotential
- Chemistry
- Intermetallic
- Catalysis
- Nanomaterials
- Nanoparticle
- Alloy
- Faraday efficiency