Journal ArticleDOI
Achieving Selective and Efficient Electrocatalytic Activity for CO2 Reduction Using Immobilized Silver Nanoparticles.
Cheonghee Kim,Hyo Sang Jeon,Hyo Sang Jeon,Taedaehyeong Eom,Michael Shincheon Jee,Michael Shincheon Jee,Hyungjun Kim,Cynthia M. Friend,Byoung Koun Min,Byoung Koun Min,Byoung Koun Min,Yun Jeong Hwang,Yun Jeong Hwang +12 more
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TLDR
DFT calculations enlightened that the specific interaction between Ag nanoparticle and the anchoring agents modified the catalyst surface to have a selectively higher affinity to the intermediate COOH over CO, which effectively lowers the overpotential.Abstract:
Selective electrochemical reduction of CO2 is one of the most sought-after processes because of the potential to convert a harmful greenhouse gas to a useful chemical. We have discovered that immobilized Ag nanoparticles supported on carbon exhibit enhanced Faradaic efficiency and a lower overpotential for selective reduction of CO2 to CO. These electrocatalysts were synthesized directly on the carbon support by a facile one-pot method using a cysteamine anchoring agent resulting in controlled monodispersed particle sizes. These synthesized Ag/C electrodes showed improved activities, specifically decrease of the overpotential by 300 mV at 1 mA/cm2, and 4-fold enhanced CO Faradaic efficiency at −0.75 V vs RHE with the optimal particle size of 5 nm compared to polycrystalline Ag foil. DFT calculations enlightened that the specific interaction between Ag nanoparticle and the anchoring agents modified the catalyst surface to have a selectively higher affinity to the intermediate COOH over CO, which effectivel...read more
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Rapid synthesis of gold–palladium core–shell aerogels for selective and robust electrochemical CO2 reduction
TL;DR: In this article, a disturbance-assisted dynamic shelling strategy is developed, generating self-supported Au-Pd core-shell gels within 10 min, based on suitable activation and desorption energies of the involved species as suggested by theoretical calculations.
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Copper–Silver Bimetallic Nanowire Arrays for Electrochemical Reduction of Carbon Dioxide
TL;DR: A method for tuning the selectivity of copper nanocatalysts for CO2 reduction by controlling their composition is provided, which could be ascribed to the incorporation of Ag into Cu nanowires leading to suppression of hydrogen evolution.
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Enhancing electrochemical performance of electrode material via combining defect and heterojunction engineering for supercapacitors.
TL;DR: In this article, double transition metal oxide heterojunctions with oxygen vacancy (Vo-ZnO/CoO) nanowires are prepared by effective hydrothermal and thermal treatments.
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A Br− anion adsorbed porous Ag nanowire film: in situ electrochemical preparation and application toward efficient CO2 electroreduction to CO with high selectivity
TL;DR: In this paper, a bromide-derived porous Ag nanowire film (BD-Ag) with adsorbed Br− anions via anodic oxidation of commerical Ag foil and subsequent electrochemical reduction is presented.
References
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