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Biosensors based on lithotrophic microbial fuel cells in relation to heterotrophic counterparts: research progress challenges and opportunities

机译：基于岩石营养微生物燃料电池的生物传感器与异养对应物的关系：研究进展挑战和机遇

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Biosensors based on the microbial fuel cell (MFC) platform have been receiving increasing attention from researchers owing to their unique properties. The lithotrophic MFC, operated with a neutrophilic iron-oxidizing bacterial community, has recently been developed and proposed to be used as a biosensor to detect iron, and likely metals in general, in water samples. Therefore, in this review, important aspects of the lithotrophic MFC-based biosensor, including its configuration, fabrication, microbiology, electron transfer mechanism, sensing performance, etc. were carefully discussed in comparison with those of heterotrophic (organotrophic) counterparts. Particularly, the challenges for the realization of the practical application of the device were determined. Furthermore, the application potentials of the device were also considered and positioned in the context of technologies for metal monitoring and bioremediation.

机译：基于微生物燃料电池（MFC）平台的生物传感器因其独特的性能而受到越来越多研究人员的关注。与嗜中性铁氧化细菌群落一起运作的岩石营养型MFC，最近已被开发并提议用作生物传感器，以检测水样中的铁以及一般可能的金属。因此，在这篇综述中，与异养型（有机营养型）对应物相比，基于营养型MFC的生物传感器的重要方面，包括其结构，制造，微生物学，电子转移机制，传感性能等，都进行了详细讨论。特别是，确定了实现该装置的实际应用所面临的挑战。此外，在金属监测和生物修复技术的背景下，还考虑并确定了该设备的应用潜力。

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期刊名称 AIMS Microbiology
作者
Hai The Pham;
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作者单位

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年(卷),期 2018(4),3
年度 2018
页码 567–583
总页数 17
原文格式 PDF
正文语种
中图分类微生物学;
关键词
microbial fuel cell bioelectrochemical systems iron bacteria iron oxidation lithotrophic biosensor;

机译：微生物燃料电池;生物电化学系统;铁细菌;铁氧化;石化生物传感器;

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专利

1. Biosensors based on lithotrophic microbial fuel cells in relation to heterotrophic counterparts: research progress, challenges, and opportunities [J] . Hai The Pham AIMS Microbiology . 2018,第3期

机译：基于岩石营养微生物燃料电池的生物传感器与异养对应物的关系：研究进展，挑战和机遇
2. Possibility of using a lithotrophic iron-oxidizing microbial fuel cell as a biosensor for detecting iron and manganese in water samples [J] . Phuong Hoang Nguyen Tran, Tha Thanh Thi Luong, Thuy Thu Thi Nguyen, Environmental Science: Processes & Impacts . 2015,第10期

机译：可以使用岩溶性铁氧化微生物燃料电池作为生物传感器检测水样中的铁和锰
3. Impact of heterotrophic denitrification on BOD detection of the nitrate - containing wastewater using microbial fuel cell -based biosensors [J] . Guo Fei, Liu Hong Chemical engineering journal . 2020,第1期

机译：异养反硝化对使用微生物燃料电池的生物传感器对含硝酸盐废水的BOD检测的影响
4. Optimization study of a microbial fuel cell (MFC)-based biosensor [C] . Yue YI, Xing-ye LI, Xuan-hua JIANG, International Conference on Materials Engineering and Environmental Science . 2016

机译：基于微生物燃料电池（MFC）的生物传感器的优化研究
5. Mechanistic aspect of electrochemical signal in a microbial fuel cell-based biosensor. [D] . Lei, Hao-Yun. 2015

机译：基于微生物燃料电池的生物传感器中电化学信号的机械方面。
6. Microbial Fuels Cell-Based Biosensor for Toxicity Detection: A Review [O] . Tuoyu Zhou, Huawen Han, Pu Liu, 2017

机译：微生物燃料的基于细胞的生物传感器的毒性检测：审查。
7. Microbial Fuels Cell-Based Biosensor for Toxicity Detection: A Review [O] . Tuoyu Zhou, Huawen Han, Pu Liu, 2017

机译：微生物燃料基于细胞的生物传感器用于毒性检测：综述
8. Microbial Fuel Cell Transformation of Recalcitrant Organic Compounds in Support of Biosensor Research [R] . Sylvander, M P 2014

机译：微生物燃料电池转化顽固有机化合物支持生物传感器研究

Biosensors based on lithotrophic microbial fuel cells in relation to heterotrophic counterparts: research progress challenges and opportunities

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