Effect of growth solution, membrane size and array connection on microbial fuel cell power supply for medical devices

机译：生长溶液，膜尺寸和阵列连接对医疗器械微生物燃料电池电源的影响

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Implanted biomedical devices typically last a number of years before their batteries are depleted and a surgery is required to replace them. A Microbial Fuel Cell (MFC) is a device which by using bacteria, directly breaks down sugars to generate electricity. Conceptually there is potential to continually power implanted medical devices for the lifetime of a patient. To investigate the practical potential of this technology, H-Cell Dual Chamber MFCs were evaluated with two different growth solutions and measurements recorded for maximum power output both of individual MFCs and connected MFCs. Using Luria-Bertani media and connecting MFCs in a hybrid series and parallel arrangement with larger membrane sizes showed the highest power output and the greatest potential for replacing implanted batteries.

机译：植入的生物医学设备通常在电池耗尽之前可持续使用数年，并且需要进行手术来更换它们。微生物燃料电池（MFC）是一种利用细菌直接分解糖以发电的装置。从概念上讲，有可能在患者的一生中为植入的医疗设备持续供电。为了研究该技术的实际潜力，对H-Cell双室MFC使用两种不同的生长溶液进行了评估，并记录了各个MFC和所连接MFC的最大功率输出的测量值。使用Luria-Bertani介质并以较大的膜尺寸以混合串联和并联方式连接MFC时，显示出最高的功率输出和最大的替换植入电池的潜力。

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《Annual International Conference of the IEEE Engineering in Medicine and Biology Society》|2016年|1946-1949|共4页
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Daniel N. Roxby; Nham Tran; Pak-Lam Yu; Hung T. Nguyen;
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Biomembranes; Electric potential; Microorganisms; Cathodes; Voltage measurement; Media;

机译：生物膜;电势;微生物;阴极;电压测量;介质;

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1. Microbial fuel cell as power supply for implantable medical devices: A novel configuration design for simulating colonic environment [J] . Dong K., Jia B., Yu C., Biosensors & Bioelectronics: The International Journal for the Professional Involved with Research, Technology and Applications of Biosensers and Related Devices . 2013,第Null期

机译：微生物燃料电池作为可植入医疗设备的电源：一种用于模拟结肠环境的新颖配置设计
2. A microbial fuel cell as power supply for implantable medical devices [J] . Han YF, Yu CL, Liu H Biosensors & Bioelectronics: The International Journal for the Professional Involved with Research, Technology and Applications of Biosensers and Related Devices . 2010,第9期

机译：微生物燃料电池作为可植入医疗设备的电源
3. An array of microliter-sized microbial fuel cells generating 100 μw of power [J] . Choi S., Chae J. Sensors and Actuators, A. Physical . 2012,第Null期

机译：微阵列大小的微生物燃料电池，可产生100μw的功率
4. Effect of growth solution, membrane size and array connection on microbial fuel cell power supply for medical devices [C] . Daniel N. Roxby, Nham Tran, Pak-Lam Yu, Annual International Conference of the IEEE Engineering in Medicine and Biology Society . 2016

机译：生长溶液，膜尺寸和阵列连接对医疗器械微生物燃料电池供电的影响
5. On the supply of a proton exchange membrane fuel cell with hydrogen generated through photovoltaic powered electrolysis and stored as a metal hydride. [D] . Lomma, Anthony Timothy. 1997

机译：向质子交换膜燃料电池供应通过光伏驱动的电解产生的氢并以金属氢化物形式存储的氢。
6. Characterization of a new composite membrane for point of need paper-based micro-scale microbial fuel cell analytical devices [O] . María Jesús González-Pabón, Federico Figueredo, Diana C. Martínez-Casillas, 2012

机译：用于基于纸张的微型微生物燃料电池分析设备的新型复合膜的表征
7. Inside Cover: Rapid Evaluation of Power Degradation in Series Connection of Single Feeding Microsized Microbial Fuel Cells (Energy Technol. 8/2014) [O] . Jhonathan Prieto Rojas, Wejdan Alqarni, Muhammad Mustafa Hussain 2014

机译：内盖：单馈微生物微生物燃料电池串联连接的功率降解快速评估（能源技术。8/2014）
8. Microbial Fuel Cells for Powering Navy Devices. [R] . L. M. Tender 2014

机译：用于为海军装置提供动力的微生物燃料电池。

Effect of growth solution, membrane size and array connection on microbial fuel cell power supply for medical devices

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