Progress and Perspectives of Electrochemical CO2 Reduction on Copper in Aqueous Electrolyte
Stephanie A. Nitopi,Erlend Bertheussen,Søren Bertelsen Scott,Xinyan Liu,Albert K. Engstfeld,Albert K. Engstfeld,Sebastian Horch,Brian Seger,Ifan E. L. Stephens,Ifan E. L. Stephens,Karen Chan,Karen Chan,Christopher Hahn,Christopher Hahn,Jens K. Nørskov,Jens K. Nørskov,Jens K. Nørskov,Thomas F. Jaramillo,Thomas F. Jaramillo,Ib Chorkendorff +19 more
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TLDR
A broad and historical view of different aspects and their complex interplay in CO2R catalysis on Cu is taken, with the purpose of providing new insights, critical evaluations, and guidance to the field with regard to research directions and best practices.Abstract:
To date, copper is the only heterogeneous catalyst that has shown a propensity to produce valuable hydrocarbons and alcohols, such as ethylene and ethanol, from electrochemical CO2 reduction (CO2R). There are variety of factors that impact CO2R activity and selectivity, including the catalyst surface structure, morphology, composition, the choice of electrolyte ions and pH, and the electrochemical cell design. Many of these factors are often intertwined, which can complicate catalyst discovery and design efforts. Here we take a broad and historical view of these different aspects and their complex interplay in CO2R catalysis on Cu, with the purpose of providing new insights, critical evaluations, and guidance to the field with regard to research directions and best practices. First, we describe the various experimental probes and complementary theoretical methods that have been used to discern the mechanisms by which products are formed, and next we present our current understanding of the complex reaction networks for CO2R on Cu. We then analyze two key methods that have been used in attempts to alter the activity and selectivity of Cu: nanostructuring and the formation of bimetallic electrodes. Finally, we offer some perspectives on the future outlook for electrochemical CO2R.read more
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Wetting-regulated gas-involving (photo)electrocatalysis: biomimetics in energy conversion.
TL;DR: In this article, a review of the cutting-edge design methodologies of both gas-evolving and gas-consuming (photo)electrocatalytic systems is presented.
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Laser-Microstructured Copper Reveals Selectivity Patterns in the Electrocatalytic Reduction of CO2
TL;DR: In this paper, the authors quantify the impact of the (electro)chemical environment on the selectivity pattern by using microstructured copper (Cu) electrodes prepared by ultra-short pulse laser ablation.
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Rh/Al Nanoantenna Photothermal Catalyst for Wide-Spectrum Solar-Driven CO2 Methanation with Nearly 100% Selectivity.
Gao Fu,Minghang Jiang,Jie Liu,Kaiqiang Zhang,Yi Hu,Yan Xiong,Anyang Tao,Zuoxiu Tie,Zhong Jin +8 more
TL;DR: In this article, a rhodium/aluminum (Rh/Al) nanoantenna photothermal catalyst was used for CO2 methanation, achieving a high selectivity of nearly 100% and an unprecedented CH4 productivity of 550 mmol·g-1·h-1 under concentrated simulated solar irradiation (11.3 W·cm-2).
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Single-Atom Electrocatalysts for Multi-Electron Reduction of CO2.
TL;DR: In this article, a review of recent advances in how to design efficient single-atom electrocatalysts for multi-electron reduction of CO2, with emphasis on strategies in regulating the interactions between active sites and key reaction intermediates, is summarized.
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Hierarchical Metal–Polymer Hybrids for Enhanced CO2 Electroreduction
Shuaiqiang Jia,Qinggong Zhu,Mengen Chu,Shitao Han,Ruting Feng,Jianxin Zhai,Wei Xia,Mingyuan He,Haihong Wu,Buxing Han,Buxing Han +10 more
TL;DR: In this paper, a 3D hierarchical metal/polymer-carbon paper (M/Polymer-CP) electrodes were synthesized by in situ electrosynthesis, where the 3D polymer layer on CP was first prepared by in- situ electropolymerization, then a 3d metal layer was decorated on the polymer-CP to produce the M/polymers-CP electrode, which could efficiently reduce CO2 to desired products, such as C2 H4, CO and HCOOH, depending on the metal used.
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