生物燃料电池包括酶生物燃料电池和微生物燃料电池。
Biofuel cells include enzyme biology fuel cell and microorganism fuel cell.
按采用催化剂的不同,可分为微生物燃料电池和酶生物燃料电池。
It can be classified into microbial fuel cell and enzymatic biofuel cell.
酶生物燃料电池的寿命短以及能量密度低都与酶的稳定性、电子迁移速率和酶载量相关。
The two problems of enzyme-based biofuel cells are short lifetime and poor power density, both of which are related to enzyme stability, electron transfer rate and enzyme loading.
综述了酶生物燃料电池的研究进展,特别是近年来在电池结构、性能以及电池的正极和负极研究等方面的成果。
The recent research progress of enzymatic biofuel cells including the properties, structure and components of biofuel cells are briefly reviewed.
目的研究一种新型酶电极电化学性能,该电极能够被应用到生物燃料电池中。
Objective To study the electrochemical features of an improved enzyme bioelectrode for biofuel cell.
这种新的生物酶方式相对于旧的方式可以产生3倍的氢气或更多,这可能意味着通过这些酶为氢燃料电池汽车生产氢气将更具可行性。
The method produces three times more hydrogen than an older enzymatic method does, suggesting that it might be practical to use such enzymes to produce hydrogen for fuel-cell vehicles.
这种新的生物酶方式相对于旧的方式可以产生3倍的氢气或更多,这可能意味着通过这些酶为氢燃料电池汽车生产氢气将更具可行性。
The method produces three times more hydrogen than an older enzymatic method does, suggesting that it might be practical to use such enzymes to produce hydrogen for fuel-cell vehicles.
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