Zinc oxides by thermal decomposition synthesis and parameters affecting electrocatalyst activity for CO2 reduction reaction

IF 2.9 Q1 MATERIALS SCIENCE, CERAMICS

Open Ceramics Pub Date : 2024-12-28 DOI:10.1016/j.oceram.2024.100733

Elías Rodríguez-Jara , Margherita Cavallo , Ryosuke Nakazato , Matthias Quintelier , Keeko Matsumoto , Joke Hadermann , Jadra Mosa , Francesca Bonino , Kiyoharu Tadanaga , Mario Aparicio , Nataly Carolina Rosero-Navarro

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Abstract

Electroreduction of CO₂ to obtain fossil fuel-free energy products is a promising avenue reducing anthropogenic greenhouse gas emissions. Catalysts based on Au, Ag and Cu are frequently used. Others based on abundant and low-cost elements such as Zn also report catalytic activity. This work presents a scalable and simple synthesis method of catalysts based on ZnO structures by a controlled thermal decomposition process of Zinc acetate dehydrate. An in-depth study of how modifications of synthesis parameters may affect the final performance of the material as electrocatalyst in CO₂RR is studied. It has been found that higher values of faradaic efficiency to CO evolution were found for samples synthesised at higher temperatures and higher heating ramp, reaching 69 % at -0.8 V vs RHE. It is of great importance to control over the parameters of the thermal decomposition process as they can greatly affect the final catalytic behaviour of the sample.

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氧化锌的热分解合成及其参数对CO2还原反应电催化剂活性的影响

电还原二氧化碳以获得无化石燃料的能源产品是减少人为温室气体排放的有前途的途径。常用的催化剂有金、银和铜。其他基于丰富和低成本元素（如锌）的催化剂也报道了催化活性。本文提出了一种可扩展的、简单的基于氧化锌结构的催化剂合成方法，该方法采用醋酸锌脱水的受控热分解过程。深入研究了合成参数的改变如何影响材料在CO2RR中作为电催化剂的最终性能。研究发现，在更高温度和更高加热斜坡下合成的样品，CO的法拉第分解效率更高，在-0.8 V vs RHE下达到69%。热分解过程的参数对样品的最终催化行为有很大的影响，控制这些参数是非常重要的。

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