Covalent Immobilization of a Molecular Catalyst on Cu2O Photocathodes for CO2 Reduction.
about
Boron-doped diamond semiconductor electrodes: Efficient photoelectrochemical CO2 reduction through surface modification.Metalloporphyrin-modified semiconductors for solar fuel production.Heterogeneous Molecular Systems for Photocatalytic CO2 Reduction with Water Oxidation.Photo-reduction of CO2 Using a Rhenium Complex Covalently Supported on a Graphene/TiO2 Composite.Coordination chemistry in the design of heterogeneous photocatalysts.Photoelectrocatalytic H2 evolution in water with molecular catalysts immobilised on p-Si via a stabilising mesoporous TiO2 interlayer.A Co3O4-CDots-C3N4 three component electrocatalyst design concept for efficient and tunable CO2 reduction to syngas.Electrocatalytic reduction of CO2 with CCC-NHC pincer nickel complexes.Stable Aqueous Photoelectrochemical CO2 Reduction by a Cu2 O Dark Cathode with Improved Selectivity for Carbonaceous Products.Design of a photoelectrochemical device for the selective conversion of aqueous CO2 to CO: using mesoporous palladium-copper bimetallic cathode and hierarchical ZnO-based nanowire array photoanode.Solar H2 generation in water with a CuCrO2 photocathode modified with an organic dye and molecular Ni catalyst.CO2 reduction with Re(i)-NHC compounds: driving selective catalysis with a silicon nanowire photoelectrode.Photoelectrochemical CO2 Reduction by a Molecular Cobalt(II) Catalyst on Planar and Nanostructured Si Surfaces.Atomic layer deposition of Cu(i) oxide films using Cu(ii) bis(dimethylamino-2-propoxide) and water.Insights into the mechanism and aging of a noble-metal free H-evolving dye-sensitized photocathodeRecent Methods for the Synthesis of Noble-Metal-Free Hydrogen-Evolution Electrocatalysts: From Nanoscale to Sub-nanoscaleBioinspired cobalt cubanes with tunable redox potentials for photocatalytic water oxidation and CO reductionProgress in catalyst exploration for heterogeneous CO2 reduction and utilization: a critical review
P2860
Q37444632-D97C306A-F00C-4D1E-9F41-74FD82FCB900Q37707884-7B5DCAFF-1C03-4713-8AD7-3082C4F8BBC8Q38811838-5A86F2FC-AC0B-44BF-8C87-A64F413D4014Q38859131-0207F7D3-5F11-4DB6-88C8-8B69CE5F3884Q39214740-A961DD5D-E9E4-4EBE-8F50-0F250A0861D6Q41768695-EC178190-F60D-4EB4-AC20-1A0FBF21C387Q46252429-A91FDAB0-EAD6-4F29-9248-212FA88F901BQ47935782-3A337C23-E5A0-4211-8ED8-D87857DFDC10Q48042663-28B5F128-B6A0-43D7-B8B3-729FF0A7636AQ51299433-F0A0CEFA-41FF-423C-8475-D964BEAF3EEFQ52599517-8DBDFFA6-4B77-4B11-99E8-9DDE08093A24Q53550232-EF9DD3E2-ABAF-4A9D-A4D2-488FD8023B7EQ53589399-9945F141-D669-4793-9667-5E7AAF4B4041Q54211444-FD38C02C-0335-433E-91D0-19C9E5C179A4Q57496222-17C64C46-4D1C-47EC-BBAD-E71C7B4CFB96Q58308822-23EA95B8-ED54-4659-8205-950D15774317Q58762758-C707352A-A206-4AB2-959A-D4BB3EA8F207Q59315902-D1D5AF73-A667-4803-A464-46DE2016D2F8
P2860
Covalent Immobilization of a Molecular Catalyst on Cu2O Photocathodes for CO2 Reduction.
description
2016 nî lūn-bûn
@nan
2016年の論文
@ja
2016年学术文章
@wuu
2016年学术文章
@zh
2016年学术文章
@zh-cn
2016年学术文章
@zh-hans
2016年学术文章
@zh-my
2016年学术文章
@zh-sg
2016年學術文章
@yue
2016年學術文章
@zh-hant
name
Covalent Immobilization of a Molecular Catalyst on Cu2O Photocathodes for CO2 Reduction.
@en
Covalent Immobilization of a Molecular Catalyst on Cu2O Photocathodes for CO2 Reduction.
@nl
type
label
Covalent Immobilization of a Molecular Catalyst on Cu2O Photocathodes for CO2 Reduction.
@en
Covalent Immobilization of a Molecular Catalyst on Cu2O Photocathodes for CO2 Reduction.
@nl
prefLabel
Covalent Immobilization of a Molecular Catalyst on Cu2O Photocathodes for CO2 Reduction.
@en
Covalent Immobilization of a Molecular Catalyst on Cu2O Photocathodes for CO2 Reduction.
@nl
P50
P356
P1476
Covalent Immobilization of a Molecular Catalyst on Cu2O Photocathodes for CO2 Reduction.
@en
P2093
Marcel Schreier
P304
P356
10.1021/JACS.5B12157
P407
P577
2016-01-23T00:00:00Z