Hierarchical β-Mo2 C Nanotubes Organized by Ultrathin Nanosheets as a Highly Efficient Electrocatalyst for Hydrogen Production.
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Coupled molybdenum carbide and reduced graphene oxide electrocatalysts for efficient hydrogen evolutionHighly Active Catalyst of Two-Dimensional CoS2/Graphene Nanocomposites for Hydrogen Evolution Reaction.Ultra-high electrochemical catalytic activity of MXenes.Complex Hollow Nanostructures: Synthesis and Energy-Related Applications.Controllable Surface Reorganization Engineering on Cobalt Phosphide Nanowire Arrays for Efficient Alkaline Hydrogen Evolution Reaction.A Redox-anchoring Approach to Well-dispersed MoCx /C Nanocomposite for Efficient Electrocatalytic Hydrogen Evolution.Hydrolysis batteries: generating electrical energy during hydrogen absorption.Complex Nanostructures from Materials based on Metal-Organic Frameworks for Electrochemical Energy Storage and Conversion.Hierarchical Nanotubes Constructed by Carbon-Coated Ultrathin SnS Nanosheets for Fast Capacitive Sodium Storage.A general route to coat poly(cyclotriphosphazene-co-4,4'-sulfonyldiphenol) on various substrates and the derived N, P, S-doped hollow carbon shells for catalysis.Electrospinning Hetero-Nanofibers of Fe3 C-Mo2 C/Nitrogen-Doped-Carbon as Efficient Electrocatalysts for Hydrogen Evolution.Self-Assembly of Hierarchical Ni-Mo-Polydopamine Microflowers and their Conversion to a Ni-Mo2 C/C Composite for Water Splitting.Electrochemical Dealloying of PdCu3 Nanoparticles to Achieve Pt-like Activity for the Hydrogen Evolution Reaction.Alloying Behavior of Self-Assembled Noble Metal Nanoparticles.Insight into the enhanced photoelectrocatalytic activity in reduced LaFeO3 films.Spontaneous decoration of silicon surfaces with MoOx nanoparticles for the sunlight-assisted hydrogen evolution reaction.In Situ Coupling of CoP Polyhedrons and Carbon Nanotubes as Highly Efficient Hydrogen Evolution Reaction Electrocatalyst.A Reusable N-Doped-Carbon-Coated Mo2 C Composite Counter Electrode for High-Efficiency Dye-Sensitized Solar Cells.Mo2C quantum dot embedded chitosan-derived nitrogen-doped carbon for efficient hydrogen evolution in a broad pH range.Efficient Overall Water-Splitting Electrocatalysis Using Lepidocrocite VOOH Hollow Nanospheres.Formation of Triple-Shelled Molybdenum-Polydopamine Hollow Spheres and Their Conversion into MoO2 /Carbon Composite Hollow Spheres for Lithium-Ion Batteries.Molybdenum Carbide Nanoparticles on Carbon Nanotubes and Carbon Xerogel: Low-Cost Cathodes for Hydrogen Production by Alkaline Water Electrolysis.Ultra-efficient electrocatalytic hydrogen evolution at one-step carbonization generated molybdenum carbide nanosheets/N-doped carbon.Earth-Abundant Iron Diboride (FeB2 ) Nanoparticles as Highly Active Bifunctional Electrocatalysts for Overall Water SplittingA self-standing nanoporous MoP2 nanosheet array: an advanced pH-universal catalytic electrode for the hydrogen evolution reactionCoOx–carbon nanotubes hybrids integrated on carbon cloth as a new generation of 3D porous hydrogen evolution promotersSymmetric synergy of hybrid CoS2–WS2 electrocatalysts for the hydrogen evolution reactionFe-CoP Electrocatalyst Derived from a Bimetallic Prussian Blue Analogue for Large-Current-Density Oxygen Evolution and Overall Water SplittingControllable synthesis of molybdenum-based electrocatalysts for a hydrogen evolution reactionTransition metal carbide-based materials: synthesis and applications in electrochemical energy storageCobaloxime anchored MoS2 nanosheets as electrocatalysts for the hydrogen evolution reaction
P2860
Q28601155-E9E71132-4494-4968-8B40-E20A741A0E05Q36391453-231C4566-AC8F-45C6-9255-C9326E0AE8CFQ37239917-374A7983-A196-4E76-A7D3-DA973B043E46Q39090379-AFC7FD51-4616-4450-A1D9-F8AD9E8C1A8CQ46254894-C4CDDB5C-E3E3-4210-A64E-7C28E3252D7DQ46438350-860007CB-3830-4289-B80E-9A7E0ADD177FQ47224935-88A2B99B-3AF9-47FE-ABA0-59EC9D60049CQ47619992-AF615388-BFF6-4618-A420-1526602C26A2Q47870498-DE6BFAB7-8576-46A9-8E80-FC53A26ADA5BQ47900506-DE718823-5BFF-4022-95AD-1DFDAF4336CCQ48042939-0CB7ED48-6415-4FF2-A97B-DA376908ABF2Q48047382-02C1ED26-66F2-46EB-960F-07E352181E7FQ48053725-795F95B0-2287-4988-B5CF-DF632E183797Q48181932-8DEC261B-FAAD-4C0B-82AD-EAC040CB6F47Q48254750-CB92854D-143E-4F25-9EC4-121DAFF718CBQ48341182-4E5BF154-53F8-42DD-9229-CE183E9CD5F9Q48849721-57531758-701A-4458-9072-5688F9223000Q50124329-A654F5F4-1429-46F9-BABA-D145571A9332Q50217754-2C430567-CB34-4450-9164-3E84D9BCB567Q51038174-706F30D8-D8D6-4AB6-A812-1F3937318D90Q51126098-B10E18A8-F9C0-4B22-80A0-5751B60E2CEEQ51362559-02DEF775-E0B6-43AB-A333-C4461EB3FA07Q51778376-A778F20B-4297-412E-955E-2FD0DB540F7CQ55014273-305F4EA1-E2F4-4D96-9C9F-43405340E9F8Q56995967-C73C033C-AFF7-469C-9699-757D5E47F08FQ57586676-598AEC4A-0F8D-4FF4-873A-8E19EB6F1757Q57759546-98D655E0-C080-4E5E-AFBD-2F2F6EE42359Q57823917-A114E8A5-3643-4865-9572-11A13B3156FFQ57958045-3883BC64-3F25-4308-8646-3503D3AC6FF6Q57959488-0AE9A454-9521-4FBA-A56C-E0B72280C688Q58338116-6CFE9AFB-58F9-43E5-9825-B91FD899451C
P2860
Hierarchical β-Mo2 C Nanotubes Organized by Ultrathin Nanosheets as a Highly Efficient Electrocatalyst for Hydrogen Production.
description
2015 nî lūn-bûn
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2015年の論文
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2015年学术文章
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2015年学术文章
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2015年学术文章
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name
Hierarchical β-Mo2 C Nanotubes ...... alyst for Hydrogen Production.
@en
Hierarchical β-Mo2 C Nanotubes ...... alyst for Hydrogen Production.
@nl
type
label
Hierarchical β-Mo2 C Nanotubes ...... alyst for Hydrogen Production.
@en
Hierarchical β-Mo2 C Nanotubes ...... alyst for Hydrogen Production.
@nl
prefLabel
Hierarchical β-Mo2 C Nanotubes ...... alyst for Hydrogen Production.
@en
Hierarchical β-Mo2 C Nanotubes ...... alyst for Hydrogen Production.
@nl
P2860
P50
P356
P1476
Hierarchical β-Mo2 C Nanotubes ...... talyst for Hydrogen Production
@en
P2093
Bao Yu Xia
Xiong Wen David Lou
P2860
P304
15395-15399
P356
10.1002/ANIE.201508715
P407
P577
2015-11-03T00:00:00Z