Synergistically engineering of vacancy and doping in thiospinel to boost electrocatalytic oxygen evolution in alkaline water and seawater
Electronic structure engineering lies at the heart of the catalyst design, however, utilizing
one strategy to modify the electronic structure is still challenging to achieve optimal …
one strategy to modify the electronic structure is still challenging to achieve optimal …
Synergistically engineering of vacancy and doping in thiospinel to boost electrocatalytic oxygen evolution in alkaline water and seawater
H Xu, K Wang, L Jin, L Yang, J Yuan… - Journal of Colloid …, 2023 - ui.adsabs.harvard.edu
Electronic structure engineering lies at the heart of the catalyst design, however, utilizing
one strategy to modify the electronic structure is still challenging to achieve optimal …
one strategy to modify the electronic structure is still challenging to achieve optimal …
Synergistically engineering of vacancy and doping in thiospinel to boost electrocatalytic oxygen evolution in alkaline water and seawater.
H Xu, K Wang, L Jin, L Yang, J Yuan… - Journal of Colloid and …, 2023 - europepmc.org
Electronic structure engineering lies at the heart of the catalyst design, however, utilizing
one strategy to modify the electronic structure is still challenging to achieve optimal …
one strategy to modify the electronic structure is still challenging to achieve optimal …
Synergistically engineering of vacancy and doping in thiospinel to boost electrocatalytic oxygen evolution in alkaline water and seawater
H Xu, K Wang, L Jin, L Yang, J Yuan… - Journal of colloid … - pubmed.ncbi.nlm.nih.gov
Electronic structure engineering lies at the heart of the catalyst design, however, utilizing
one strategy to modify the electronic structure is still challenging to achieve optimal …
one strategy to modify the electronic structure is still challenging to achieve optimal …