Evaluation of in-plane architecture in a thermo-electrochemical cell with nanostructured and porous Sb:SnO2 electrodes

IF 4.7 3区 工程技术 Q2 ELECTROCHEMISTRY Electrochemistry Communications Pub Date : 2024-05-11 DOI:10.1016/j.elecom.2024.107750
S. Castro-Ruiz, J. García-Cañadas
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Abstract

Thermo-electrochemical cells (TECs) are able to convert heat into electricity. They are formed by two electrodes (typically Pt) separated by a redox electrolyte (usually 0.4 M aqueous ferro/ferricyanide). The widely adopted architecture of TECs consists of the two electrodes separated by an electrolyte channel. To our knowledge, no studies have been reported exploring a different architecture. Here, we evaluate an alternative configuration, which comprises a substrate with the two electrodes at its ends and with the electrolyte added on the top contacting both electrodes, forming a planar configuration. We explore first the use of the standard Pt electrodes deposited on top of a conductive glass substrate. Then, we replace the Pt by nanostructured and porous Sb-doped SnO2. The planar configurations are compared with their corresponding typical architectures using the common ferro/ferricyanide electrolyte. It was found that the planar TEC with Sb:SnO2 reached a temperature coefficient of 1.76 mV/K, higher than the value obtained in the standard configuration with Sb:SnO2 (1.21 mV/K), and also higher than the planar architecture with Pt electrodes, which showed the typical value for the ferro/ferricyanide electrolyte (1.45 mV/K). As a consequence of this significantly larger value, a 29.7 % higher maximum power output than the planar TEC with Pt was observed. Our study identifies for the first time interesting new features when a planar architecture is employed, opening the door to explore in more detail this alternative configuration in TECs.

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评估带有纳米结构和多孔 Sb:SnO2 电极的热电化学电池中的面内结构
热电化学电池(TEC)能够将热量转化为电能。它们由两个电极(通常为铂电极)和氧化还原电解质(通常为 0.4 M 铁/铁氰化物水溶液)分隔而成。广泛采用的 TEC 结构包括由电解质通道分隔的两个电极。据我们所知,还没有关于探索不同结构的研究报告。在这里,我们对另一种结构进行了评估,这种结构包括一个基板,基板的两端有两个电极,电解质加在接触两个电极的顶部,形成一个平面结构。我们首先探讨了在导电玻璃基底上沉积标准铂电极的使用方法。然后,我们用纳米多孔掺杂锑的二氧化锡取代铂。我们将平面结构与使用普通铁/铁氰化物电解质的相应典型结构进行了比较。结果发现,使用 Sb:SnO2 的平面 TEC 的温度系数达到了 1.76 mV/K,高于使用 Sb:SnO2 的标准配置(1.21 mV/K),也高于使用铂电极的平面结构,后者显示的是铁/铁氰化物电解质的典型值(1.45 mV/K)。由于该值明显增大,最大输出功率比带铂的平面 TEC 高出 29.7%。我们的研究首次发现了采用平面结构时的有趣新特征,为更详细地探索 TEC 中的这种替代配置打开了大门。
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来源期刊
Electrochemistry Communications
Electrochemistry Communications 工程技术-电化学
CiteScore
8.50
自引率
3.70%
发文量
160
审稿时长
1.2 months
期刊介绍: Electrochemistry Communications is an open access journal providing fast dissemination of short communications, full communications and mini reviews covering the whole field of electrochemistry which merit urgent publication. Short communications are limited to a maximum of 20,000 characters (including spaces) while full communications and mini reviews are limited to 25,000 characters (including spaces). Supplementary information is permitted for full communications and mini reviews but not for short communications. We aim to be the fastest journal in electrochemistry for these types of papers.
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