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Literature DB >> 30637969

Zn-Cu Alloy Nanofoams as Efficient Catalysts for the Reduction of CO₂ to Syngas Mixtures with a Potential-Independent H₂ /CO Ratio.

Sarah Lamaison¹, David Wakerley¹, David Montero², Gwenaëlle Rousse³, Dario Taverna⁴, Domitille Giaume⁵, Dimitri Mercier⁵, Juliette Blanchard⁶, Huan Ngoc Tran¹, Marc Fontecave¹, Victor Mougel^1,7.

Abstract

Alloying strategies are commonly used to design electrocatalysts that take on properties of their constituent elements. Herein, such a strategy is used to develop Zn-Cu alloyed electrodes with unique hierarchical porosity and tunable selectivity for CO2 versus H+ reduction. By varying the Zn/Cu ratio, tailored syngas mixtures are obtained without the production of other gaseous products, which is attributed to preferential CO- and H2 -forming pathways on the alloys. The syngas ratios are also significantly less sensitive to the applied potential in the alloys relative to pure metal equivalents; an essential quality when coupling electrocatalysis with renewable power sources that have fluctuating intensity. As such, industrially relevant syngas ratios are achieved at large currents (-60 mA) for extensive operating times (>9 h), demonstrating the potential of this strategy for fossil-free fuel production.

Entities: Chemical

Keywords: CO2 reduction; alloys; electrocatalysis; electrolysis; syngas

Year: 2019 PMID： 30637969 DOI： 10.1002/cssc.201802287

Source DB: PubMed Journal: ChemSusChem ISSN： 1864-5631 Impact factor: 8.928

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Cited

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4. Operando Insight into the Correlation between the Structure and Composition of CuZn Nanoparticles and Their Selectivity for the Electrochemical CO₂ Reduction.

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6 in total

Zn-Cu Alloy Nanofoams as Efficient Catalysts for the Reduction of CO2 to Syngas Mixtures with a Potential-Independent H2 /CO Ratio.

Review 1. Rational-Designed Principles for Electrochemical and Photoelectrochemical Upgrading of CO2 to Value-Added Chemicals.