Self-Supported Cu3P Nanowire Arrays as an Integrated High-Performance Three-Dimensional Cathode for Generating Hydrogen from Water
about
Robustly photogenerating H2 in water using FeP/CdS catalyst under solar irradiation.Recent Progress in Energy-Driven Water Splitting.Highly stable PtP alloy nanotube arrays as a catalyst for the oxygen reduction reaction in acidic medium.Porous molybdenum carbide nano-octahedrons synthesized via confined carburization in metal-organic frameworks for efficient hydrogen productionConstruction of Efficient 3D Gas Evolution Electrocatalyst for Hydrogen Evolution: Porous FeP Nanowire Arrays on Graphene Sheets.One-Dimensional Earth-Abundant Nanomaterials for Water-Splitting Electrocatalysts.RuP2 -Based Catalysts with Platinum-like Activity and Higher Durability for the Hydrogen Evolution Reaction at All pH Values.Graphene Decorated with Uniform Ultrathin (CoP)x -(FeP)1-x Nanorods: A Robust Non-Noble-Metal Catalyst for Hydrogen Evolution.Nanostructured Bifunctional Redox Electrocatalysts.Ultrastable nitrogen-doped carbon encapsulating molybdenum phosphide nanoparticles as highly efficient electrocatalyst for hydrogen generation.A novel and highly efficient earth-abundant Cu3P with TiO2 "P-N" heterojunction nanophotocatalyst for hydrogen evolution from water.NiCo2 S4 Materials for Supercapacitor Applications.Facile and Scalable Synthesis of Robust Ni(OH)2 Nanoplate Arrays on NiAl Foil as Hierarchical Active Scaffold for Highly Efficient Overall Water Splitting.Trimetallic Oxyhydroxide Coralloids for Efficient Oxygen Evolution Electrocatalysis.One-Step Synthesis of Self-Supported Nickel Phosphide Nanosheet Array Cathodes for Efficient Electrocatalytic Hydrogen Generation.CoP for hydrogen evolution: implications from hydrogen adsorption.Facilitating Active Species Generation by Amorphous NiFe-Bi Layer Formation on NiFe-LDH Nanoarray for Efficient Electrocatalytic Oxygen Evolution at Alkaline pH.In Situ Transformation of MOFs into Layered Double Hydroxide Embedded Metal Sulfides for Improved Electrocatalytic and Supercapacitive Performance.Self-Supported PtAuP Alloy Nanotube Arrays with Enhanced Activity and Stability for Methanol Electro-Oxidation.Self-Supported Ni(P, O)x·MoOx Nanowire Array on Nickel Foam as an Efficient and Durable Electrocatalyst for Alkaline Hydrogen Evolution.MOF-Derived Bifunctional Cu3 P Nanoparticles Coated by a N,P-Codoped Carbon Shell for Hydrogen Evolution and Oxygen Reduction.Polyaniline Derived N-Doped Carbon-Coated Cobalt Phosphide Nanoparticles Deposited on N-Doped Graphene as an Efficient Electrocatalyst for Hydrogen Evolution Reaction.Engineering transition metal phosphide nanomaterials as highly active electrocatalysts for water splitting.A Cu3P-CoP hybrid nanowire array: a superior electrocatalyst for acidic hydrogen evolution reactions.Interface engineering of a CeO2-Cu3P nanoarray for efficient alkaline hydrogen evolution.Flower-Like Nickel Phosphide Microballs Assembled by Nanoplates with Exposed High-Energy (0 0 1) Facets: Efficient Electrocatalyst for the Hydrogen Evolution Reaction.A Mn-doped Ni2P nanosheet array: an efficient and durable hydrogen evolution reaction electrocatalyst in alkaline media.Ternary Porous Cobalt Phosphoselenide Nanosheets: An Efficient Electrocatalyst for Electrocatalytic and Photoelectrochemical Water Splitting.Anion-exchange synthesis of a nanoporous crystalline CoB2O4 nanowire array for high-performance water oxidation electrocatalysis in borate solution.Highly Stable Three-Dimensional Porous Nickel-Iron Nitride Nanosheets for Full Water Splitting at High Current Densities.Robust electrocatalysts from metal doped W18O49 nanofibers for hydrogen evolution.Al-Doped CoP nanoarray: a durable water-splitting electrocatalyst with superhigh activity.NiCoP Nanoarray: A Superior Pseudocapacitor Electrode with High Areal Capacitance.A hierarchically porous nickel-copper phosphide nano-foam for efficient electrochemical splitting of water.Cobalt disulfide/graphite foam composite films as self-standing electrocatalytic electrodes for overall water splitting.Three-dimensional metal-organic framework derived porous CoP3 concave polyhedrons as superior bifunctional electrocatalysts for the evolution of hydrogen and oxygen.Electrochemical Dealloying of PdCu3 Nanoparticles to Achieve Pt-like Activity for the Hydrogen Evolution Reaction.Integrating natural biomass electro-oxidation and hydrogen evolution: using a porous Fe-doped CoP nanosheet array as a bifunctional catalyst.In Situ Coupling of CoP Polyhedrons and Carbon Nanotubes as Highly Efficient Hydrogen Evolution Reaction Electrocatalyst.Ni(OH)2-Fe2P hybrid nanoarray for alkaline hydrogen evolution reaction with superior activity.
P2860
Q27300831-16B64804-5D16-4AE6-9FA8-5DAFC52D899EQ33718719-EA721E81-CB14-4ADF-BAEB-E53A44CC4DE4Q33851575-991168E9-1CB3-4A12-8274-818E2583C0B4Q35245084-4BF2501C-2BE7-4ECC-82E2-FE72EA60DF25Q36154544-0FED42A1-D9F7-4F52-B84C-E8B6EFC932CAQ37710956-188D720F-1285-4F36-8702-31E4CEC2D8DCQ38659359-3444D61E-8876-44CA-B3E2-4A94D3B0D68BQ38732496-7946A240-581F-47C3-B36F-8BF17BE0938BQ38800844-602AD1C1-2034-484D-A7E4-5243F28877ECQ38813960-9CE6A307-DAF0-4E0C-BE46-1D109AF1477FQ38813968-C66F3842-3E11-463E-B7E4-1D2427F5F4D5Q39382797-53C27936-3CE9-4D08-9C43-24DADE45411FQ41483304-BABBCBB2-0F76-4469-8201-4028C3943110Q41933077-01854DDA-DA3B-4BC3-B941-6779DAFB15B5Q45931977-36A7D87C-F131-4D44-B9C3-ACC12F6F3BAFQ45953188-126F5898-5424-4902-B18E-7D210D6D3228Q46337286-F79519EE-5787-4FE5-8AC1-FCDD5DAB6EB0Q46372678-F65D27EC-E88D-41D6-B401-DA54EDD014BBQ46414719-2F9311AB-E8F0-4C20-8705-505ACFB7AD10Q47095392-E6D70212-30E0-49FE-B080-A3279EA3A058Q47228880-E938C739-7A47-4132-A0EE-1BC6D2155F2EQ47337433-2BF7E3A9-1B10-46DF-8D0F-022FB1F181F7Q47350119-FE613AC3-8092-4789-BF5F-EEE06954610AQ47422907-B53F4CC8-BBA7-45E3-A64A-9712A9F1BC2BQ47716394-7727DB21-C9DD-4327-A886-F690CB0C3B78Q47859718-AD6F9093-E567-465B-8CC8-FEE5EE06CB3AQ47872214-2FDEF215-86BA-42EC-833C-4C40F26DA7B4Q47917446-BC8FE955-0DE1-42FB-A85B-52353BE8D661Q47919654-9C4B0737-0743-4150-AE6E-20B1CAFD17A6Q48014121-94A070AB-8C68-4932-A739-0EE4B0B6B4B5Q48043140-DEEB63F8-301E-4DF4-A2CB-3EEF737781C5Q48043610-5370E42A-D637-454C-942F-C49E94CA3DA5Q48044975-18C65056-3700-4BE3-871D-0A117B9EE7A1Q48047492-9D81D226-BC47-418E-9F97-DE6EA56CE707Q48048697-DF2607FC-28E1-449F-A454-BCD7F5A79EFCQ48050661-9C6B3FE0-0F09-4D7A-82CF-02782F731D9DQ48053725-FD17252C-C225-4110-82BA-9D3AC191BBC6Q48061932-2F1AD6AC-9F56-437D-A87A-B976D61A30AFQ48849721-C3381E25-0158-41FC-87F8-E1FD05298DF9Q50042155-450C8A40-4FA1-4FE8-B85F-37A828F68237
P2860
Self-Supported Cu3P Nanowire Arrays as an Integrated High-Performance Three-Dimensional Cathode for Generating Hydrogen from Water
description
scientific article published on 15 July 2014
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в липні 2014
@uk
name
Self-Supported Cu3P Nanowire A ...... Generating Hydrogen from Water
@en
Self-Supported Cu3P Nanowire A ...... Generating Hydrogen from Water
@nl
type
label
Self-Supported Cu3P Nanowire A ...... Generating Hydrogen from Water
@en
Self-Supported Cu3P Nanowire A ...... Generating Hydrogen from Water
@nl
prefLabel
Self-Supported Cu3P Nanowire A ...... Generating Hydrogen from Water
@en
Self-Supported Cu3P Nanowire A ...... Generating Hydrogen from Water
@nl
P2093
P356
P1476
Self-supported Cu3P nanowire a ...... generating hydrogen from water
@en
P2093
Ningyan Cheng
Xuping Sun
P304
P356
10.1002/ANIE.201403842
P407
P577
2014-07-15T00:00:00Z