化学与生物工程
化學與生物工程
화학여생물공정
CHEMISTRY & BIOENGINEERING
2009年
7期
16-18
,共3页
宋娟%赵华章%杨亲正%彭艳丽
宋娟%趙華章%楊親正%彭豔麗
송연%조화장%양친정%팽염려
微生物燃料电池%阳极修饰%产电性能
微生物燃料電池%暘極脩飾%產電性能
미생물연료전지%양겁수식%산전성능
microbial fuel cell%anode modification%electricity production
微生物细胞与电池阳极之间的电子转移速率是影响微生物燃料电池(MFC)产电性能的重要因素之一.通过阳极修饰可以促进电子转移速率,进而提高MFC产电性能.综述了MFC阳极修饰的研究进展.
微生物細胞與電池暘極之間的電子轉移速率是影響微生物燃料電池(MFC)產電性能的重要因素之一.通過暘極脩飾可以促進電子轉移速率,進而提高MFC產電性能.綜述瞭MFC暘極脩飾的研究進展.
미생물세포여전지양겁지간적전자전이속솔시영향미생물연료전지(MFC)산전성능적중요인소지일.통과양겁수식가이촉진전자전이속솔,진이제고MFC산전성능.종술료MFC양겁수식적연구진전.
As a new energy source, microbial fuel cell (MFC) has become the investigating hotspot in recent years. For a long time, small output of MFC is a bottleneck for its development, while electron transferring rate from microbial cells to anode effects the electricity production of MFC significantly, which can be prompted by modifying anode electrode. This paper reviews research progress of anode modification for MFC.
