微流控生物燃料电池的展望。
A perspective on microfluidic biofuel cells.
机构信息
Mechatronic Systems Engineering, School of Engineering Science, Simon Fraser University, 250-13450 102 Avenue, Surrey, British Columbia V3T 0A3, Canada.
出版信息
Biomicrofluidics. 2010 Nov 10;4(4):41301. doi: 10.1063/1.3515523.
Abstract
This review article presents how microfluidic technologies and biological materials are paired to assist in the development of low cost, green energy fuel cell systems. Miniaturized biological fuel cells, employing enzymes or microorganisms as biocatalysts in an environmentally benign configuration, can become an attractive candidate for small-scale power source applications such as biological sensors, implantable medical devices, and portable electronics. State-of-the-art biofuel cell technologies are reviewed with emphasis on microfabrication compatibility and microfluidic fuel cell designs. Integrated microfluidic biofuel cell prototypes are examined with comparisons of their performance achievements and fabrication methods. The technical challenges for further developments and the potential research opportunities for practical cell designs are discussed.
摘要
这篇综述文章介绍了微流控技术和生物材料是如何配对以协助开发低成本、绿色能源燃料电池系统的。采用酶或微生物作为生物催化剂,在环境友好的配置中,小型化生物燃料电池可以成为小型电源应用(如生物传感器、植入式医疗设备和便携式电子产品)的有吸引力的候选者。本文综述了最先进的生物燃料电池技术,重点介绍了微制造兼容性和微流体燃料电池设计。通过比较它们的性能成就和制造方法,对集成微流体生物燃料电池原型进行了检查。讨论了进一步发展的技术挑战和实用电池设计的潜在研究机会。
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