氧化物表面的质子传导--在电化学能量转换中的作用和应用

Truls Norby
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引用次数: 0

摘要

在过去的二十年里,氧化物表面的质子传导因其在电解质中用于低温能量转换的可能性及其在提高催化活性方面的作用而备受关注。这促使人们对这一现象进行更深入的研究,加深了解,并开发出可量化的模型。随之而来的是,在低漏燃料电池中使用这种传导的明显示范,以及对固态电化学和光电化学电池电极中表面质子传导作用的认可。本文简要回顾并阐述了水和氢与氧化物表面相互作用的基本原理,以及由此产生的化学吸附层和物理吸附层质子传导模型。最后,我们讨论了表面质子传导在传感器、催化、电化学和光电化学能量转换等一系列应用中的各个方面。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Protonic conduction on oxide surfaces—role and applications in electrochemical energy conversion
Protonic conduction on surfaces of oxides has over the last two decades drawn attention for its possible utilisation in electrolytes for energy conversion at low temperatures and for its roles in enhancement of catalytic activity. This has led to deeper investigation and increased understanding of the phenomenon and development of quantifiable models. Along with this has emerged apparent demonstrations of use of such conduction in low-drain fuel cells as well as acknowledgement of the role of surface protonic conduction in electrodes for solid-state electrochemical and photoelectrochemical cells. Here is provided a brief review and elaboration of the fundamentals of the interaction of water and hydrogen with oxide surfaces, and models for the resulting protonic conduction in chemisorbed and physisorbed layers. We finally discuss aspects of surface protonic conduction in a range of applications, including sensors, catalysis, and electrochemical and photoelectrochemical energy conversion.
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CiteScore
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