Advances in the mechanism investigation for the oxygen evolution reaction: fundamental theory and monitoring techniques
S Gong, T Zhang, J Meng, W Sun, Y Tian - Materials Chemistry …, 2024 - pubs.rsc.org
Highly active oxygen evolution reaction (OER) electrocatalysts plays a crucial role in efficient
water splitting. Understanding the OER mechanism provides the premise for rational catalyst …
water splitting. Understanding the OER mechanism provides the premise for rational catalyst …
Strategies for the design of ruthenium-based electrocatalysts toward acidic oxygen evolution reaction
L Hou, X Gu, X Cui, J Tang, Z Li, X Liu, J Cho - EES Catalysis, 2023 - pubs.rsc.org
Polymer electrolyte membrane water electrolyzers (PEMWEs) driven by renewable
electricity are deemed to be a promising technology toward green hydrogen production …
electricity are deemed to be a promising technology toward green hydrogen production …
Simultaneous reactant accessibility and charge transfer engineering in Co-doped RuO2-supported OCNT for robust rechargeable zinc-air batteries
The sluggish oxygen reduction/evolution reaction (ORR/OER) kinetics greatly limits the
application of zinc-air batteries (ZAB). Regarding this, searching for high-efficient …
application of zinc-air batteries (ZAB). Regarding this, searching for high-efficient …
[HTML][HTML] Single-phase ruthenium-based oxide with dual-atoms induced bifunctional catalytic centers enables highly efficient rechargeable Zn-air batteries
Composite strategies for constructing dual-atom sites at the hetero-interface provide
considerable prospects for designing efficient bifunctional oxygen catalysts. Given the …
considerable prospects for designing efficient bifunctional oxygen catalysts. Given the …
Ru rich Ru-Mn-O phases for selective suppression of chlorine evolution in sea water electrolysis
C Astudillo, KM Macounová, AM Frandsen, R Nebel… - Electrochimica …, 2023 - Elsevier
Limits of steering selectively gas evolving reaction on Ru rich oxide phases in Ru-Mn-O
system were investigated by combined theoretical and experimental approach. Ru 1-x Mn x …
system were investigated by combined theoretical and experimental approach. Ru 1-x Mn x …
Strain‐Dependent Activity‐Stability Relations in RuO2 and IrO2 Oxygen Evolution Catalysts
Strain engineering is an effective strategy in modulating activity of electrocatalysts, but the
effect of strain on electrochemical stability of catalysts remains poorly understood. In this …
effect of strain on electrochemical stability of catalysts remains poorly understood. In this …
[HTML][HTML] Enhanced OER Performance by varying Al-WO3 Electrocatalyst Thickness: Process Optimization
Oxygen evolution reactions (OER) are highly significant and play a critical role in the
advancement of fuel cells, electrolyzers, chemicals, and solar energy conversion devices …
advancement of fuel cells, electrolyzers, chemicals, and solar energy conversion devices …
Strain engineering in electrocatalysis: Strategies, characterization, and insights
Strain engineering, as a cutting-edge method for modulating the electronic structure of
catalysts, plays a crucial role in regulating the interaction between the catalytic surface and …
catalysts, plays a crucial role in regulating the interaction between the catalytic surface and …
Interplay of surface and subsurface contributions in electrocatalysis
M Vitale-Sullivan, KA Stoerzinger - Current Opinion in Electrochemistry, 2023 - Elsevier
Heterogeneous electrocatalysts stabilize adsorbed reaction intermediates at their surfaces
and promote electron transfer to facilitate reaction rates. Although immense efforts—both …
and promote electron transfer to facilitate reaction rates. Although immense efforts—both …
Seawater to resource technologies with NASICON solid electrolyte: a review
Seawater represents an inexhaustible reservoir of valuable resources, containing vast
quantities of both water and minerals. However, the presence of various impurities in …
quantities of both water and minerals. However, the presence of various impurities in …