Identifying the Local Atomic Environment of the “Cu3+” State in Alkaline Electrochemical Systems
L Ostervold, R Daneshpour, M Facchinei… - … Applied Materials & …, 2023 - ACS Publications
CuO-based catalysts are active for the oxygen evolution reaction (OER), although the active
form of copper for the OER is still unknown. We combine operando Raman experiments and …
form of copper for the OER is still unknown. We combine operando Raman experiments and …
Identifying the Local Atomic Environment of the "Cu3+" State in Alkaline Electrochemical Systems.
L Ostervold, R Daneshpour, M Facchinei… - … Applied Materials & …, 2023 - europepmc.org
CuO-based catalysts are active for the oxygen evolution reaction (OER), although the active
form of copper for the OER is still unknown. We combine operando Raman experiments and …
form of copper for the OER is still unknown. We combine operando Raman experiments and …
Identifying the Local Atomic Environment of the “Cu3+” State in Alkaline Electrochemical Systems
L Ostervold, R Daneshpour, M Facchinei… - ACS Applied Materials …, 2023 - pure.psu.edu
CuO-based catalysts are active for the oxygen evolution reaction (OER), although the active
form of copper for the OER is still unknown. We combine operando Raman experiments and …
form of copper for the OER is still unknown. We combine operando Raman experiments and …
Identifying the Local Atomic Environment of the" Cu3+" State in Alkaline Electrochemical Systems
L Ostervold, R Daneshpour… - … applied materials & …, 2023 - pubmed.ncbi.nlm.nih.gov
CuO-based catalysts are active for the oxygen evolution reaction (OER), although the active
form of copper for the OER is still unknown. We combine operando Raman experiments and …
form of copper for the OER is still unknown. We combine operando Raman experiments and …