Photocathode functionalized with a molecular cobalt catalyst for selective carbon dioxide reduction in water
出版年份 2020 全文链接
标题
Photocathode functionalized with a molecular cobalt catalyst for selective carbon dioxide reduction in water
作者
关键词
-
出版物
Nature Communications
Volume 11, Issue 1, Pages -
出版商
Springer Science and Business Media LLC
发表日期
2020-07-13
DOI
10.1038/s41467-020-17125-4
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注意:仅列出部分参考文献,下载原文获取全部文献信息。- Binary molecular-semiconductor p–n junctions for photoelectrocatalytic CO2 reduction
- (2019) Bing Shan et al. Nature Energy
- Stable Molecular Photocathode for Solar-Driven CO2 Reduction in Aqueous Solutions
- (2019) Ting-Ting Li et al. ACS Energy Letters
- Solar-driven reduction of aqueous CO2 with a cobalt bis(terpyridine)-based photocathode
- (2019) Jane J. Leung et al. Nature Catalysis
- CO2 electrochemical catalytic reduction with a highly active cobalt phthalocyanine
- (2019) Min Wang et al. Nature Communications
- Cd-Free Cu(In,Ga)(Se,S)2 Thin-Film Solar Cell With Record Efficiency of 23.35%
- (2019) Motoshi Nakamura et al. IEEE Journal of Photovoltaics
- A Hybrid Co Quaterpyridine Complex/Carbon Nanotube Catalytic Material for CO2 Reduction in Water
- (2018) Min Wang et al. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
- Solar-Driven Photocatalytic CO2 Reduction in Water Utilizing a Ruthenium Complex Catalyst on p-Type Fe2O3 with a Multiheterojunction
- (2018) Keita Sekizawa et al. ACS Catalysis
- Development of highly efficient CuIn0.5Ga0.5Se2-based photocathode and application to overall solar driven water splitting
- (2018) Hiroyuki Kobayashi et al. Energy & Environmental Science
- Molecular Electrochemical Catalysis of the CO2-to-CO Conversion with a Co Complex: A Cyclic Voltammetry Mechanistic Investigation
- (2018) Claudio Cometto et al. ORGANOMETALLICS
- The Key RuV=O Intermediate of Site-Isolated Mononuclear Water Oxidation Catalyst Detected by in Situ X-ray Absorption Spectroscopy
- (2017) Dmitry Lebedev et al. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
- Dye aggregation in dye-sensitized solar cells
- (2017) Lei Zhang et al. Journal of Materials Chemistry A
- Phosphonic Acids for Interfacial Engineering of Transparent Conductive Oxides
- (2016) Sergio A. Paniagua et al. CHEMICAL REVIEWS
- Photoelectrochemical CO2Reduction by a Molecular Cobalt(II) Catalyst on Planar and Nanostructured Si Surfaces
- (2016) Da He et al. CHEMISTRY-A EUROPEAN JOURNAL
- Highly Efficient and Selective Photocatalytic CO2 Reduction by Iron and Cobalt Quaterpyridine Complexes
- (2016) Zhenguo Guo et al. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
- Covalent Immobilization of a Molecular Catalyst on Cu2O Photocathodes for CO2 Reduction
- (2016) Marcel Schreier et al. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
- Photoelectrochemical Reduction of CO2 Coupled to Water Oxidation Using a Photocathode with a Ru(II)–Re(I) Complex Photocatalyst and a CoOx/TaON Photoanode
- (2016) Go Sahara et al. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
- Towards efficient solar-to-hydrogen conversion: Fundamentals and recent progress in copper-based chalcogenide photocathodes
- (2016) Yubin Chen et al. Nanophotonics
- Efficient and selective carbon dioxide reduction on low cost protected Cu2O photocathodes using a molecular catalyst
- (2015) Marcel Schreier et al. Energy & Environmental Science
- Toward Solar-Driven Photocatalytic CO2 Reduction Using Water as an Electron Donor
- (2015) Shunsuke Sato et al. INORGANIC CHEMISTRY
- CIGS based devices for solar hydrogen production spanning from PEC-cells to PV-electrolyzers: A comparison of efficiency, stability and device topology
- (2015) T. Jesper Jacobsson et al. SOLAR ENERGY MATERIALS AND SOLAR CELLS
- Selective Catalytic Electroreduction of CO2 at Silicon Nanowires (SiNWs) Photocathodes Using Non-Noble Metal-Based Manganese Carbonyl Bipyridyl Molecular Catalysts in Solution and Grafted onto SiNWs
- (2015) Encarnación Torralba-Peñalver et al. ACS Catalysis
- Visible light-induced reduction of carbon dioxide sensitized by a porphyrin–rhenium dyad metal complex on p-type semiconducting NiO as the reduction terminal end of an artificial photosynthetic system
- (2013) Youki Kou et al. JOURNAL OF CATALYSIS
- Photochemical and Photoelectrochemical Reduction of CO2
- (2012) Bhupendra Kumar et al. Annual Review of Physical Chemistry
- Light-driven water oxidation for solar fuels
- (2012) Karin J. Young et al. COORDINATION CHEMISTRY REVIEWS
- Ultrathin films on copper(i) oxide water splitting photocathodes: a study on performance and stability
- (2012) Adriana Paracchino et al. Energy & Environmental Science
- Selective CO2Conversion to Formate Conjugated with H2O Oxidation Utilizing Semiconductor/Complex Hybrid Photocatalysts
- (2011) Shunsuke Sato et al. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
- Recrystallization of CIGSe layers grown by three-step processes: A model based on grain boundary migration
- (2010) N. Barreau et al. ACTA MATERIALIA
- Photoelectrochemical reduction of CO2 in water under visible-light irradiation by a p-type InP photocathode modified with an electropolymerized ruthenium complex
- (2010) Takeo Arai et al. CHEMICAL COMMUNICATIONS
- Photoreduction of CO2 on p-type Silicon Using Re(bipy-But)(CO)3Cl: Photovoltages Exceeding 600 mV for the Selective Reduction of CO2 to CO
- (2010) Bhupendra Kumar et al. Journal of Physical Chemistry C
- Molecular Approaches to the Photocatalytic Reduction of Carbon Dioxide for Solar Fuels
- (2009) Amanda J. Morris et al. ACCOUNTS OF CHEMICAL RESEARCH
- Photophysical properties and applications of Re(I) and Re(I)–Ru(II) carbonyl polypyridyl complexes
- (2008) A COLEMAN et al. COORDINATION CHEMISTRY REVIEWS
- Quantum confinement in amorphous TiO2films studied via atomic layer deposition
- (2008) David M King et al. NANOTECHNOLOGY
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