Highly Selective Conversion of CO2to CO Achieved by a Three-Dimensional Porous Silver Electrocatalyst
Published 2017 View Full Article
- Home
- Publications
- Publication Search
- Publication Details
Title
Highly Selective Conversion of CO2to CO Achieved by a Three-Dimensional Porous Silver Electrocatalyst
Authors
Keywords
-
Journal
ChemistrySelect
Volume 2, Issue 3, Pages 879-884
Publisher
Wiley
Online
2017-01-25
DOI
10.1002/slct.201601980
References
Ask authors/readers for more resources
Related references
Note: Only part of the references are listed.- Selective and Efficient Reduction of Carbon Dioxide to Carbon Monoxide on Oxide-Derived Nanostructured Silver Electrocatalysts
- (2016) Ming Ma et al. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
- Enhancement in carbon dioxide activity and stability on nanostructured silver electrode and the role of oxygen
- (2016) Michael Shincheon Jee et al. APPLIED CATALYSIS B-ENVIRONMENTAL
- Three-dimensional porous hollow fibre copper electrodes for efficient and high-rate electrochemical carbon dioxide reduction
- (2016) Recep Kas et al. Nature Communications
- Building with bubbles: the formation of high surface area honeycomb-like films via hydrogen bubble templated electrodeposition
- (2015) Blake J. Plowman et al. CHEMICAL COMMUNICATIONS
- Selective CO2 reduction on a polycrystalline Ag electrode enhanced by anodization treatment
- (2015) Li Qin Zhou et al. CHEMICAL COMMUNICATIONS
- Rational Design of a Hierarchical Tin Dendrite Electrode for Efficient Electrochemical Reduction of CO2
- (2015) Da Hye Won et al. ChemSusChem
- Catalysts and Reaction Pathways for the Electrochemical Reduction of Carbon Dioxide
- (2015) Ruud Kortlever et al. Journal of Physical Chemistry Letters
- Achieving Selective and Efficient Electrocatalytic Activity for CO2 Reduction Using Immobilized Silver Nanoparticles
- (2015) Cheonghee Kim et al. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
- Active Sites of Au and Ag Nanoparticle Catalysts for CO2 Electroreduction to CO
- (2015) Seoin Back et al. ACS Catalysis
- Effect of Chloride Anions on the Synthesis and Enhanced Catalytic Activity of Silver Nanocoral Electrodes for CO2 Electroreduction
- (2015) Yu-Chi Hsieh et al. ACS Catalysis
- Degradation and deactivation of Sn catalyst used for CO2 reduction as function of overpotential
- (2014) Anawati et al. ELECTROCHIMICA ACTA
- Nanostructured Tin Catalysts for Selective Electrochemical Reduction of Carbon Dioxide to Formate
- (2014) Sheng Zhang et al. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
- Enhanced Electrochemical Methanation of Carbon Dioxide with a Dispersible Nanoscale Copper Catalyst
- (2014) Karthish Manthiram et al. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
- Electroreduction of carbon monoxide to liquid fuel on oxide-derived nanocrystalline copper
- (2014) Christina W. Li et al. NATURE
- Insights into the electrocatalytic reduction of CO2on metallic silver surfaces
- (2014) Toru Hatsukade et al. PHYSICAL CHEMISTRY CHEMICAL PHYSICS
- Synergistic geometric and electronic effects for electrochemical reduction of carbon dioxide using gold–copper bimetallic nanoparticles
- (2014) Dohyung Kim et al. Nature Communications
- Electrochemical Reduction of CO2 at Copper Nanofoams
- (2014) Sujat Sen et al. ACS Catalysis
- Competition between CO2 Reduction and H2 Evolution on Transition-Metal Electrocatalysts
- (2014) Yin-Jia Zhang et al. ACS Catalysis
- Benchmarking Heterogeneous Electrocatalysts for the Oxygen Evolution Reaction
- (2013) Charles C. L. McCrory et al. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
- Electrochemical conversion of CO2 to useful chemicals: current status, remaining challenges, and future opportunities
- (2013) Huei-Ru “Molly” Jhong et al. Current Opinion in Chemical Engineering
- XPS study of silver, nickel and bimetallic silver–nickel nanoparticles prepared by seed-mediated growth
- (2012) Pilar Prieto et al. APPLIED SURFACE SCIENCE
- Nanoparticle Silver Catalysts That Show Enhanced Activity for Carbon Dioxide Electrolysis
- (2012) Amin Salehi-Khojin et al. Journal of Physical Chemistry C
- Tin Oxide Dependence of the CO2 Reduction Efficiency on Tin Electrodes and Enhanced Activity for Tin/Tin Oxide Thin-Film Catalysts
- (2012) Yihong Chen et al. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
- Nitrogen-Based Catalysts for the Electrochemical Reduction of CO2 to CO
- (2012) Claire E. Tornow et al. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
- CO2 Reduction at Low Overpotential on Cu Electrodes Resulting from the Reduction of Thick Cu2O Films
- (2012) Christina W. Li et al. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
- Aqueous CO2 Reduction at Very Low Overpotential on Oxide-Derived Au Nanoparticles
- (2012) Yihong Chen et al. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
- Porous Electrode Materials for Lithium-Ion Batteries - How to Prepare Them and What Makes Them Special
- (2012) Anh Vu et al. Advanced Energy Materials
- Ionic Liquid-Mediated Selective Conversion of CO2 to CO at Low Overpotentials
- (2011) B. A. Rosen et al. SCIENCE
- Electrodeposition of three-dimensional porous silver foams
- (2010) Serhiy Cherevko et al. ELECTROCHEMISTRY COMMUNICATIONS
- Impact of key deposition parameters on the morphology of silver foams prepared by dynamic hydrogen template deposition
- (2010) Serhiy Cherevko et al. ELECTROCHIMICA ACTA
- Prospects of CO2 Utilization via Direct Heterogeneous Electrochemical Reduction
- (2010) Devin T. Whipple et al. Journal of Physical Chemistry Letters
- Fabrication of uniform Ag/TiO2 nanotube array structures with enhanced photoelectrochemical performance
- (2010) Yuekun Lai et al. NEW JOURNAL OF CHEMISTRY
- Artificial Photosynthesis and Solar Fuels
- (2009) Leif Hammarström ACCOUNTS OF CHEMICAL RESEARCH
- Opportunities and prospects in the chemical recycling of carbon dioxide to fuels
- (2009) Gabriele Centi et al. CATALYSIS TODAY
Find the ideal target journal for your manuscript
Explore over 38,000 international journals covering a vast array of academic fields.
SearchBecome a Peeref-certified reviewer
The Peeref Institute provides free reviewer training that teaches the core competencies of the academic peer review process.
Get Started