微生物燃料电池为机器人等提供动力；历史观点和未来方向

IF 4.8 2区化学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY

Bioelectrochemistry Pub Date : 2025-05-27 DOI:10.1016/j.bioelechem.2025.109010

Ioannis A. Ieropoulos, Daniela Zertuche Moreno

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引用次数: 0

摘要

本文介绍了微生物燃料电池（mfc）在实际应用中的部分发展历史。在20世纪形成MFC概念的研究与涉及MFC的第一个机器人发展一起得到强调。本文还给出了实际应用的例子，从现场试验中吸取的教训，以及这些如何促进了该技术的根本进步。考虑到全球事务的现状和能源安全的重要性，本文还对该技术的未来及其可能提供的有价值的用途进行了展望。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Microbial fuel cells powering robots and beyond; historical perspective and future directions

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Microbial fuel cells powering robots and beyond; historical perspective and future directions

This position paper presents part of the history of Microbial Fuel Cells (MFCs) development for practical applications. Studies that shaped the MFC concept in the 20th century are highlighted along with the first robotic developments involving MFCs. The paper also gives examples of real-world implementation, learnings from field trials and how these have contributed to the fundamental advancement of the technology. Given the status of global affairs and the significance of energy security, the paper also provides a perspective on the future of the technology and where it may offer a valuable utility.

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来源期刊

Bioelectrochemistry 生物-电化学

CiteScore

9.10

自引率

6.00%

发文量

238

审稿时长

38 days

期刊介绍： An International Journal Devoted to Electrochemical Aspects of Biology and Biological Aspects of Electrochemistry Bioelectrochemistry is an international journal devoted to electrochemical principles in biology and biological aspects of electrochemistry. It publishes experimental and theoretical papers dealing with the electrochemical aspects of: • Electrified interfaces (electric double layers, adsorption, electron transfer, protein electrochemistry, basic principles of biosensors, biosensor interfaces and bio-nanosensor design and construction. • Electric and magnetic field effects (field-dependent processes, field interactions with molecules, intramolecular field effects, sensory systems for electric and magnetic fields, molecular and cellular mechanisms) • Bioenergetics and signal transduction (energy conversion, photosynthetic and visual membranes) • Biomembranes and model membranes (thermodynamics and mechanics, membrane transport, electroporation, fusion and insertion) • Electrochemical applications in medicine and biotechnology (drug delivery and gene transfer to cells and tissues, iontophoresis, skin electroporation, injury and repair). • Organization and use of arrays in-vitro and in-vivo, including as part of feedback control. • Electrochemical interrogation of biofilms as generated by microorganisms and tissue reaction associated with medical implants.