Nanoscale nickel oxide/nickel heterostructures for active hydrogen evolution electrocatalysis
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Controllably Alloyed, Low Density, Free-standing Ni-Co and Ni-Graphene Sponges for Electrocatalytic Water SplittingAtomic cobalt on nitrogen-doped graphene for hydrogen generation.Efficient Dual-Site Carbon Monoxide Electro-Catalysts via Interfacial Nano-EngineeringBifunctional non-noble metal oxide nanoparticle electrocatalysts through lithium-induced conversion for overall water splitting.Efficient hydrogen production on MoNi4 electrocatalysts with fast water dissociation kinetics.Ruthenium-cobalt nanoalloys encapsulated in nitrogen-doped graphene as active electrocatalysts for producing hydrogen in alkaline media.Implementation of concurrent electrolytic generation of two homogeneous mediators under widened potential conditions to facilitate removal of air-pollutants.Atomic scale analysis of the enhanced electro- and photo-catalytic activity in high-index faceted porous NiO nanowires.A Si photocathode protected and activated with a Ti and Ni composite film for solar hydrogen production.Porous molybdenum carbide nano-octahedrons synthesized via confined carburization in metal-organic frameworks for efficient hydrogen productionComposite Ni/NiO-Cr2O3 Catalyst for Alkaline Hydrogen Evolution ReactionHybrid bioinorganic approach to solar-to-chemical conversion.Temperature dependence of electrocatalytic water oxidation: a triple device model with a photothermal collector and photovoltaic cell coupled to an electrolyzer.Single-Crystalline Ultrathin Nickel Nanosheets Array from In Situ Topotactic Reduction for Active and Stable Electrocatalysis.Nickel supported on nitrogen-doped carbon nanotubes as hydrogen oxidation reaction catalyst in alkaline electrolyte.Bi-axial grown amorphous MoSx bridged with oxygen on r-GO as a superior stable and efficient nonprecious catalyst for hydrogen evolutionOne-Dimensional Earth-Abundant Nanomaterials for Water-Splitting Electrocatalysts.Bulk layered heterojunction as an efficient electrocatalyst for hydrogen evolution.Enhanced Electrocatalytic Activity for Water Splitting on NiO/Ni/Carbon Fiber Paper.Improving Hydrogen Evolution Activity of Earth-Abundant Cobalt-Doped Iron Pyrite Catalysts by Surface Modification with Phosphide.Structural motifs of water on metal oxide surfaces.Two orders of magnitude enhancement in oxygen evolution reactivity on amorphous Ba0.5Sr0.5Co0.8Fe0.2O3-δ nanofilms with tunable oxidation state.Ultrathin metal-organic framework array for efficient electrocatalytic water splitting.Activating cobalt(II) oxide nanorods for efficient electrocatalysis by strain engineering.Controllable Surface Reorganization Engineering on Cobalt Phosphide Nanowire Arrays for Efficient Alkaline Hydrogen Evolution Reaction.NiO(x)-Fe2O3-coated p-Si photocathodes for enhanced solar water splitting in neutral pH water.Electrochemical Production of Glycolic Acid from Oxalic Acid Using a Polymer Electrolyte Alcohol Electrosynthesis Cell Containing a Porous TiO2 Catalyst.Well-Defined Cobalt Catalyst with N-Doped Carbon Layers Enwrapping: The Correlation between Surface Atomic Structure and Electrocatalytic Property.A Ni(OH)2-CoS2 hybrid nanowire array: a superior non-noble-metal catalyst toward the hydrogen evolution reaction in alkaline media.When NiO@Ni Meets WS2 Nanosheet Array: A Highly Efficient and Ultrastable Electrocatalyst for Overall Water Splitting.Porous Cobalt Phosphide Polyhedrons with Iron Doping as an Efficient Bifunctional Electrocatalyst.Active Sites Intercalated Ultrathin Carbon Sheath on Nanowire Arrays as Integrated Core-Shell Architecture: Highly Efficient and Durable Electrocatalysts for Overall Water Splitting.Two-dimensional NiO nanosheets with enhanced room temperature NO2 sensing performance via Al doping.Stability and Activity of Non-Noble-Metal-Based Catalysts Toward the Hydrogen Evolution Reaction.Cactus-Like Hollow Cu2-x S@Ru Nanoplates as Excellent and Robust Electrocatalysts for the Alkaline Hydrogen Evolution Reaction.A Cost-Efficient Bifunctional Ultrathin Nanosheets Array for Electrochemical Overall Water Splitting.Constructing three-dimensional porous Ni/Ni3S2 nano-interfaces for hydrogen evolution electrocatalysis under alkaline conditions.The Structural Fate of Individual Multicomponent Metal-Oxide Nanoparticles in Polymer Nanoreactors.Homologous NiO//Ni2P nanoarrays grown on nickel foams: a well matched electrode pair with high stability in overall water splitting.Electrocatalytic hydrogen evolution reaction activity comparable to platinum exhibited by the Ni/Ni(OH)2/graphite electrode.
P2860
Q27318723-BC521D4E-A795-40D7-9A96-21895C710D54Q27320535-DE1B8CE3-67EB-4B1C-BD5E-50ACB0C96303Q27348962-F8B2524B-C9E7-4955-8EFB-A23303411C6DQ30663378-22DC6D10-9444-48D0-A907-43AA6A766836Q30853020-3A9C43B3-2CF3-48DD-9024-128DB4AB5051Q33629007-874FEC26-15CC-4A72-8A89-7AAB17CA8DF2Q33671303-13E4AC38-E752-4960-963C-ABDFBE5DA6B4Q35113869-9D279E18-420B-4271-99D0-9BFE0F7F391BQ35211718-D0F2A87D-52C7-4AE5-93F9-93BF0AC2F5DDQ35245084-381C7E8C-ACFF-4CE0-B4A0-3A1655441FDEQ35849552-5B108BE3-1ED2-43E7-84C8-27E3E3294DC9Q36079104-26E1C82D-0F98-4AE7-8874-908D2EE6EA7FQ36301826-DBEA4091-5EA7-438F-8BA0-E035D08988AFQ36446171-19E8DC4B-44EB-4D84-A3EA-871BE30DC04DQ36527664-EA96AFA9-3D2F-4B67-8CFA-8637B50990F4Q37595362-7D0F9887-CCF1-4E0E-BFA6-9D30AF28E217Q37710956-AC100839-A63F-4028-8C30-047929D48F9FQ37733201-19F0613E-CEBB-4071-8C8B-4AF091166505Q38647461-0E652FCE-1E47-4DFE-AE26-BE7B4E55EECEQ38782041-208BF078-F916-422F-9A58-62E3E54B0A9BQ39127632-1D2AD579-DA56-4699-99BD-784424D40427Q41074642-91E19E1A-6944-453B-91DF-9A62626263C0Q42176793-7678BA91-74C5-4A55-864F-B29F847D954EQ44454811-E734D40F-41AD-486D-9BFE-9B8A50786B08Q46254894-85C27780-27C4-42C0-97A5-1871CE3F3833Q46940610-F16560F6-3293-4BE0-9C7B-ACAF64A989ADQ47150666-E521D9A1-7A74-4B86-9BA5-DBEB9E034C0FQ47251447-621FA0EE-1FC2-4C96-88EA-17BCFB451BBDQ47396406-8C94E314-266E-45EB-8EE0-6CCDEBAAEC85Q47691757-8D148844-5FB6-4BC8-9351-507F60CD9403Q47824872-20B8D870-D716-435B-B6E0-BC8E41C9D935Q47846738-0CDDA485-6612-4C5C-BBF6-6CFAA4E4E75CQ47930584-FA21EDF5-AA7E-422E-B666-1033D689DBBFQ48005500-CB92B56C-AB6D-4A7A-B6CD-D9EFC1674E86Q48012946-3F858346-7D75-403A-8313-D8C9A699A9BEQ48028686-7644FA25-AFC1-46F2-A526-7E32CAC6D3ABQ48030544-14E984C6-E952-430D-B12E-65F7189E7782Q48139273-70921FC3-E5E3-49CA-AF5E-04FB67186CD7Q48319018-FF9FD9FF-EB62-4E99-A92C-A26904CCFC39Q48701115-236C9E7A-6EA5-4BBC-B4EC-E3B2A94FAC4D
P2860
Nanoscale nickel oxide/nickel heterostructures for active hydrogen evolution electrocatalysis
description
2014 nî lūn-bûn
@nan
2014 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
Nanoscale nickel oxide/nickel ...... gen evolution electrocatalysis
@ast
Nanoscale nickel oxide/nickel ...... gen evolution electrocatalysis
@en
Nanoscale nickel oxide/nickel ...... gen evolution electrocatalysis
@nl
type
label
Nanoscale nickel oxide/nickel ...... gen evolution electrocatalysis
@ast
Nanoscale nickel oxide/nickel ...... gen evolution electrocatalysis
@en
Nanoscale nickel oxide/nickel ...... gen evolution electrocatalysis
@nl
prefLabel
Nanoscale nickel oxide/nickel ...... gen evolution electrocatalysis
@ast
Nanoscale nickel oxide/nickel ...... gen evolution electrocatalysis
@en
Nanoscale nickel oxide/nickel ...... gen evolution electrocatalysis
@nl
P2093
P50
P356
P1476
Nanoscale nickel oxide/nickel ...... gen evolution electrocatalysis
@en
P2093
Bing-Joe Hwang
Di-Yan Wang
Jiang Yang
Meng-Chang Lin
Mingyun Guan
Mon-Che Tsai
Stephen J Pennycook
Stephen J. Pennycook
P2888
P356
10.1038/NCOMMS5695
P407
P577
2014-08-22T00:00:00Z
P5875
P6179
1051699857