SFX by Ex Libris Inc.

Title:	A Molecular Surface Functionalization Approach to Tuning Nanoparticle Electrocatalysts for Carbon Dioxide Reduction
Source:	Journal of the American Chemical Society [0002-7863] Zhi Cao, Dohyung yr:2016

Basic

Full text

Full text available via American Chemical Society Journals

Year:

Volume:

Issue:

Start Page:

Document delivery

Request document via Library/Bibliothek

Users interested in this article also expressed an interest in the following:
description	1.	Ma, M. "Controllable Hydrocarbon Formation from the Electrochemical Reduction of CO2over Cu Nanowire Arrays." Angewandte Chemie (International ed.) 55.23 (2016): 6680-6684.
description	2.	Weng, Z. "Electrochemical CO2Reduction to Hydrocarbons on a Heterogeneous Molecular Cu Catalyst in Aqueous Solution." Journal of the American Chemical Society 138.26 (2016): 8076-8079.
description	3.	Lee, Jae K. "Anion dependent CO/H 2 production ratio from CO 2 reduction on Au electro-catalyst." Catalysis today 295 (2017): 82-88.
description	4.	Asadi, M. "Nanostructured transition metal dichalcogenide electrocatalysts for CO2 reduction in ionic liquid." Science 353.6298 (2016): 467-470.
description	5.	Sheng, T. "Electrochemical interfacial influences on deoxygenation and hydrogenation reactions in CO reduction on a Cu(100) surface." PCCP. Physical chemistry chemical physics 18.22 (2016): 15304-15311.
description	6.	Zhu, Dong D. "Recent Advances in Inorganic Heterogeneous Electrocatalysts for Reduction of Carbon Dioxide." Advanced materials 28.18 (2016): 3423-3452.
description	7.	Windle, Christopher D. "Electrocatalytic and Solar-Driven CO2Reduction to CO with a Molecular Manganese Catalyst Immobilized on Mesoporous TiO2." Angewandte Chemie (International ed.) 55.26 (2016): 7388-7392.
description	8.	Li, Q. "Controlled assembly of Cu nanoparticles on pyridinic-N rich graphene for electrochemical reduction of CO2 to ethylene." Nano Energy 24.C (2016): 1-9.
description	9.	Sarfraz, S. "CuâSn Bimetallic Catalyst for Selective Aqueous Electroreduction of CO2to CO." ACS catalysis 6.5 (2016): 2842-2851.
description	10.	Cheng, M. "Tailoring Metal-Porphyrin-Like Active Sites on Graphene to Improve the Efficiency and Selectivity of Electrochemical CO2Reduction." The journal of physical chemistry. C 119.37 (2015): 21345-21352.
description	11.	Calle Vallejo, F. "Theoretical Considerations on the Electroreduction of CO to C2 Species on Cu(100) Electrodes." Angewandte Chemie (International ed.) 52.28 (2013): 7282-7285.
description	12.	Li, Christina W. "CO2 Reduction at Low Overpotential on Cu Electrodes Resulting from the Reduction of Thick Cu2O Films." Journal of the American Chemical Society 134.17 (2012): 7231-7234.
description	13.	Yano, H. "Selective electrochemical reduction of CO2 to ethylene at a three-phase interface on copper(I) halide-confined Cu-mesh electrodes in acidic solutions of potassium halides." Journal of electroanalytical chemistry and interfacial electrochemistry 565.2 (2004): 287-293.
description	14.	Gattrell, M. "A review of the aqueous electrochemical reduction of CO2 to hydrocarbons at copper." Journal of electroanalytical chemistry and interfacial electrochemistry 594.1 (2006): 1-19.
description	15.	Stanley, I. "Plasmonic effects on CO 2 reduction over bimetallic Ni-Au catalysts." Chemical engineering science 194: 94-104.
description	16.	Shao, P. "Hollow CuS Microcube Electrocatalysts for CO2Reduction Reaction." ChemElectroChem 4.10 (2017): 2593-2598.
description	17.	Vidossich, P. "Realistic Simulation of Organometallic Reactivity in Solution by Means of First-Principles Molecular Dynamics." 2016. 81-106.
description	18.	Asadi, M. "Robust carbon dioxide reduction on molybdenum disulphide edges." Nature communications 5.7 (2014): 4470-4470.
description	19.	Kumar, B. "Renewable and metal-free carbon nanofibre catalysts for carbon dioxide reduction." Nature communications 4.1 (2013): 2819-2819.
description	20.	Schouten, Z. "Two Pathways for the Formation of Ethylene in CO Reduction on Single-Crystal Copper Electrodes." Journal of the American Chemical Society 134.24 (2012): 9864-9867.