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This Special Issue contains some recently experimental and theoretical advances in hydrogen evolution reaction, oxygen evolution reaction, and oxygen reduction reaction, and the applications in water splitting, proton exchange membrane fuel cells, and lithium-ion batteries.

Technology: general issues --- History of engineering & technology --- Materials science --- SnSe --- 2D materials --- hydrogen evolution --- water splitting --- DFT calculations --- defect engineering --- proton exchange membrane fuel cell --- high energy efficiency --- durability --- degradation --- Pt/C catalyst --- anode --- flexible electronics --- nanosheets --- SnO2 --- oxygen reduction reaction --- fluorination --- density functional theory --- non-noble metal catalyst --- N-doped carbon catalyst --- hydrogen evolution reaction --- porous carbon --- PtNi alloy --- platinum --- nanoparticles --- electrochemistry --- reduced graphite oxide --- microwave --- ionic liquid --- tunable aryl alkyl ionic liquid --- metal-organic frameworks (MOF) --- electrocatalysis --- oxygen evolution reaction (OER) --- nickel --- ketjenblack --- Sm0.5Sr0.5Co1−xNixO3−δ --- perovskite --- cathode electrocatalyst --- OER/ORR --- two-dimensional metal-organic framework --- ligand --- single-atom catalysts --- oxygen evolution reaction --- n/a

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

This Special Issue contains some recently experimental and theoretical advances in hydrogen evolution reaction, oxygen evolution reaction, and oxygen reduction reaction, and the applications in water splitting, proton exchange membrane fuel cells, and lithium-ion batteries.

Technology: general issues --- History of engineering & technology --- Materials science --- SnSe --- 2D materials --- hydrogen evolution --- water splitting --- DFT calculations --- defect engineering --- proton exchange membrane fuel cell --- high energy efficiency --- durability --- degradation --- Pt/C catalyst --- anode --- flexible electronics --- nanosheets --- SnO2 --- oxygen reduction reaction --- fluorination --- density functional theory --- non-noble metal catalyst --- N-doped carbon catalyst --- hydrogen evolution reaction --- porous carbon --- PtNi alloy --- platinum --- nanoparticles --- electrochemistry --- reduced graphite oxide --- microwave --- ionic liquid --- tunable aryl alkyl ionic liquid --- metal-organic frameworks (MOF) --- electrocatalysis --- oxygen evolution reaction (OER) --- nickel --- ketjenblack --- Sm0.5Sr0.5Co1−xNixO3−δ --- perovskite --- cathode electrocatalyst --- OER/ORR --- two-dimensional metal-organic framework --- ligand --- single-atom catalysts --- oxygen evolution reaction --- SnSe --- 2D materials --- hydrogen evolution --- water splitting --- DFT calculations --- defect engineering --- proton exchange membrane fuel cell --- high energy efficiency --- durability --- degradation --- Pt/C catalyst --- anode --- flexible electronics --- nanosheets --- SnO2 --- oxygen reduction reaction --- fluorination --- density functional theory --- non-noble metal catalyst --- N-doped carbon catalyst --- hydrogen evolution reaction --- porous carbon --- PtNi alloy --- platinum --- nanoparticles --- electrochemistry --- reduced graphite oxide --- microwave --- ionic liquid --- tunable aryl alkyl ionic liquid --- metal-organic frameworks (MOF) --- electrocatalysis --- oxygen evolution reaction (OER) --- nickel --- ketjenblack --- Sm0.5Sr0.5Co1−xNixO3−δ --- perovskite --- cathode electrocatalyst --- OER/ORR --- two-dimensional metal-organic framework --- ligand --- single-atom catalysts --- oxygen evolution reaction