Xuefu Rd. 301
Xhenjiang, 212013
China
Cobalt carbonate hydroxide, Surface reconstruction, Oxygen evolution reaction, Seawater electrolysis, stability
Metal Organic Frameworks, Layered double hydroxide, Electrocatalysts, Oxygen evolution reaction
Layered double hydroxides, metal-organic frameworks, Composites, electrocatalysis, Oxygen evolution reaction
Layered double hydroxides, metal-organic frameworks, composites, Electrocatalysis, Oxygen Evolution Reaction
Plasmon, Hotspot, In-situ monitoring, Surface-enhanced Raman scattering, Decarboxylation, interface, Core-satellite nanoparticles, Catalysis
Plasmon, Hotspot, In-situ monitoring, Surface-enhanced Raman scattering, Decarboxylation, Interface, Core-satellite nanoparticles, Catalysis
Electrocatalysis, Reconstruction, NiFe hydroxide, Oxygen evolution reaction, Prussian blue analogue
Oxygen evolution, Cyanide-bridged, Low symmetry, Carbon nanotube, Coordination effect
KEYWORDS: Metal-Organic framework, NiCo-thiophene, Oxygen evolution reaction, high current tolerance, electrocatalysis.
electrocatalysis, Hydrogen oxidation reaction, Alkaline condition, Hydrogen fuel cells, Exchange current density
Ir-Ni/NiO/C, Hydrogen oxidation reaction, Electrocatalysis, Metal-organic framework, Anion exchange membrane fuel cell
Oxygen evolution reaction, Polyoxomolybdate-organic complex, reconstruction, Catalytic electrode, Water oxidation;seawater simulation
Keywords: Electrocatalysis, Hydrogen oxidation reaction, Alkaline condition, Hydrogen fuel cells, Exchange current density.
Au-CdS, Photocatalysis, plasmonic, seawater desalination, hydrogen evolution