Photocatalytic reduction of CO2 with H2O: significant enhancement of the activity of Pt-TiO2 in CH4 formation by addition of MgO.
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The Effect of Excess Electron and hole on CO2 Adsorption and Activation on Rutile (110) surfaceLow-coordinated surface atoms of CuPt alloy cocatalysts on TiO2 for enhanced photocatalytic conversion of CO2.Charge Transport in Two-Photon Semiconducting Structures for Solar Fuels.Graphene in Photocatalysis: A Review.Photocatalytic conversion of carbon dioxide with water into methane: platinum and copper(I) oxide co-catalysts with a core-shell structure.Perspective: Photocatalytic reduction of CO2 to solar fuels over semiconductors.Inorganic core-shell assemblies for closing the artificial photosynthetic cycle.Photocatalytic reduction of CO2 with H2O to CH4 on Cu(I) supported TiO2 nanosheets with defective {001} facets.Cocatalysts in Semiconductor-based Photocatalytic CO2 Reduction: Achievements, Challenges, and Opportunities.Photocatalytic and photoelectrocatalytic reduction of CO2 using heterogeneous catalysts with controlled nanostructures.A Hierarchical Z-Scheme CdS-WO3 Photocatalyst with Enhanced CO2 Reduction Activity.Carbon dioxide-enhanced photosynthesis of methane and hydrogen from carbon dioxide and water over Pt-promoted polyaniline-TiO2 nanocomposites.SrNb2O6 nanoplates as efficient photocatalysts for the preferential reduction of CO2 in the presence of H2O.Amine-Functionalized ZnO Nanosheets for Efficient CO₂ Capture and Photoreduction.TiO₂@PEI-Grafted-MWCNTs Hybrids Nanocomposites Catalysts for CO₂ Photoreduction.Using the hydrogen and oxygen in water directly for hydrogenation reactions and glucose oxidation by photocatalysis.Semiconductor-based photocatalytic CO2 conversionA noble metal-free reduced graphene oxide–CdS nanorod composite for the enhanced visible-light photocatalytic reduction of CO2 to solar fuelPhotocatalytic CO2conversion over alkali modified TiO2without loading noble metal cocatalystPhotocatalytic Reduction of CO2to Methane on Pt/TiO2Nanosheet Porous FilmProgress in catalyst exploration for heterogeneous CO2 reduction and utilization: a critical review
P2860
Q28602547-F44A2998-08DE-4FF0-901E-F0ABDA15F557Q38414889-359F9E38-FADA-4ECE-A816-50C5D4D4B024Q38953533-CF148222-CC9E-4079-A4F0-A093B12D9315Q38996753-BA28B6D9-3AC5-49C4-9A59-6F49296E61FEQ45800467-8C37EB45-3D25-46AC-A494-BC63F784F325Q46332185-B8F44A1D-2040-4664-A51A-C30EE4A99BD9Q46355036-13E47E69-DE4F-45DF-9420-E021796C0F45Q46759191-7C9A0C59-8055-4A8E-A7EE-A7F8BD355004Q47176580-F49C26EF-C344-4FDB-B6AF-B22CE246AEF3Q50239715-E15C503D-6680-424F-B2A6-445CCFB29A80Q50249389-440549B8-2825-4604-86C9-33C7B1F4389BQ50251363-FDC2778A-44F4-4CAC-B6CE-AAFDF67610B6Q50282620-67FDAE3A-18C5-4ECC-B191-E44F280BAED4Q51672852-07B44739-7D7F-4DBB-8E34-014893834083Q52693064-EF2B55F0-322D-4196-8851-9D0A94B52422Q55032455-D781EF44-838A-47D6-9460-9A10C15C2D9EQ57654354-88F151B1-6C35-4534-B4E5-A40FAF3799FEQ57654375-2076B4BA-F413-461E-A4A6-96F5FECF98F2Q58399320-1005EC48-B9B7-432A-8FAF-177031B0A031Q59044177-B8844D06-0B9B-477F-A73D-A5E1A6CF52D0Q59315902-E8264A51-43FD-404F-A03D-69C5616D6487
P2860
Photocatalytic reduction of CO2 with H2O: significant enhancement of the activity of Pt-TiO2 in CH4 formation by addition of MgO.
description
2013 nî lūn-bûn
@nan
2013年の論文
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2013年学术文章
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2013年学术文章
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2013年学术文章
@zh-cn
2013年学术文章
@zh-hans
2013年学术文章
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name
Photocatalytic reduction of CO ...... formation by addition of MgO.
@en
Photocatalytic reduction of CO ...... formation by addition of MgO.
@nl
type
label
Photocatalytic reduction of CO ...... formation by addition of MgO.
@en
Photocatalytic reduction of CO ...... formation by addition of MgO.
@nl
prefLabel
Photocatalytic reduction of CO ...... formation by addition of MgO.
@en
Photocatalytic reduction of CO ...... formation by addition of MgO.
@nl
P2093
P2860
P356
P1476
Photocatalytic reduction of CO ...... 4 formation by addition of MgO
@en
P2093
Qinghong Zhang
Shunji Xie
Wenqing Fan
P2860
P304
P356
10.1039/C3CC00107E
P407
P50
P577
2013-03-01T00:00:00Z