Enhancing Catalyst Efficiency of Activated Carbon for Oxygen Reduction Reaction in Air Cathode Microbial Fuel Cell Application

Muhoza Jean Pierre, Hongzhi Ma, Loissi Kalakodio, Dzivaidzo Mumbengegwi
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引用次数: 5

Abstract

Microbial fuel cell (MFC) air cathode present a great potential among other configurations due to its simple design, low cost and direct use oxygen from air as terminal electron acceptor which could help to save tremendous energy used for aeration in conventional wastewater treatment. However, at the cathode oxygen reduction reaction which is vital to generate high power density is naturally slow, therefore a catalyst is needed to overcome its reaction over-potential. Platinum (Pt) is the standard used catalyst in large number of oxidation reduction reactions whether in basic or acidic electrolytes. But, due to its high cost and limited resources it doesn’t make it a sustainable candidate for scaling up of this juvenile technology. Activated carbon was found to be a low cost and environmental friendly Oxygen reduction reaction (ORR) catalyst in microbial fuel cell, but still exhibit lower catalytic behavior in its bare form which results in low power output. In this review we aims at making an overview of different promising technologies currently used to boost Activated carbon catalytic performance toward ORR in MFC air cathode and compare their outcomes in terms of catalytic behavior and MFC power output to the standard Pt and bare activated carbon catalysts. Advantages, disadvantages and bottlenecks of these techniques also will be discussed.
提高活性炭催化氧还原反应在空气阴极微生物燃料电池中的应用
微生物燃料电池(MFC)空气阴极以其设计简单、成本低、直接利用空气中的氧气作为终端电子受体等优点,在传统的污水处理中节省了大量的曝气能源,具有广阔的应用前景。然而,在阴极上,对产生高功率密度至关重要的氧还原反应自然是缓慢的,因此需要催化剂来克服其反应过电位。无论是在碱性还是酸性电解质中,铂(Pt)都是大量氧化还原反应的标准催化剂。但是,由于它的高成本和有限的资源,它并不能使它成为扩大这种年轻技术的可持续候选。活性炭是一种成本低、环境友好的微生物燃料电池氧还原反应(ORR)催化剂,但其裸态催化性能较差,导致其功率输出较低。在这篇综述中,我们旨在概述目前用于提高活性炭在MFC空气阴极上对ORR的催化性能的不同有前途的技术,并将其在催化行为和MFC功率输出方面的结果与标准Pt和裸活性炭催化剂进行比较。这些技术的优点、缺点和瓶颈也将被讨论。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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