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A novel and high performance activated carbon air-cathode with decreased volume density and catalyst layer invasion for microbial fuel cells

机译:新型高性能的活性炭空气阴极,具有降低的体积密度和微生物燃料电池的催化剂层侵入能力

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摘要

To enhance the performance of activated carbon air cathodes for microbial fuel cells (MFCs), scattered and dense air-cathodes are fabricated by the rolling-press method with the gas diffusion layer or the catalyst layer (CL) invaded to stainless steel meshes (SSM). The maximum power density with scattered cathodes (2503 + 61mWm(-2)) is 29% higher than those of dense cathodes because of the decreased internal resistance and increased oxygen reduction reaction activity. The decrease in the electrode volume density and invasion of CL into SSM has been demonstrated to be an optimal structure, with the highest exchange current density up to 1.26 A m(-2) and the lowest charge transfer resistance as low as 1.5 Omega. The increase in performance is believed to result from the enhanced mass transport through extra pores and the contact of activated carbon to the current collector. This novel structure of an air-cathode has a promising future as an application in MFCs.
机译:为了提高用于微生物燃料电池(MFCs)的活性炭空气阴极的性能,采用压延法制造了分散且致密的空气阴极,其中气体扩散层或催化剂层(CL)侵入了不锈钢网(SSM)中)。分散阴极的最大功率密度(2503 + 61mWm(-2))比致密阴极的最大功率密度高29%,这是因为内部电阻降低并且氧还原反应活性增强。电极体积密度的降低和CL侵入SSM的事实已被证明是一种最佳结构,最高交换电流密度高达1.26 A m(-2),最低电荷转移电阻低至1.5Ω。据信性能的提高是由于通过额外的孔增强了质量传递以及活性炭与集电器的接触所致。空气阴极的这种新颖结构作为在MFC中的应用具有广阔的前景。

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