生物电池

正是由于这些缺点，人们不得不选择其它效率较低的方法如生物电池或电等来产生氢。

This explains why there 's a lot of effort going into things like biofuels and using electricity to produce hydrogen .

研究者们已经发现粪便中的细菌存在一种天然加工过程能够提升生物电池性能。

The researchers discovered a natural process that occurs within the bacteria found in poo , that could help improve bio batteries .

研究者们已经发现粪便中的细菌存在一种天然加工过程能够提升“生物电池”性能。

The researchers discovered a natural process that occurs within the bacteria found in poo , that could help improve ' bio batteries . "

后来研究人员又突发奇想：是否能利用这种能量来发明一种依靠汗水发电的“生物电池”？他们的概念验证装置只产生4微瓦电——这还不足以使一只手表正常运转。

Then the researchers thought , what if they could tap into this energy to develop a sort of sweat-powered " bio battery ? " Their proof-of-concept setup topped out at only about 4 microWatts of juice - not even enough to run a watch .

盐桥MFC在设计和研究中是最简单的生物燃料电池。

Salt bridge MFC is the simplest biological fuel cell that can be designed and studied .

它能催化O2、H2O2和过氧化物还原，在生物燃料电池和过氧化氢传感器等方面有潜在的应用前景。

It can catalyze the reduction of O2 , H2O2 and peroxides . Thus , it possesses the potential application prospect in biofuel cell and H2O2 sensor etc.

利用厌氧活性污泥作为接种体成功地启动了空气阴极生物燃料电池（ACMFC），110h的接种产生了0.24V的电压；

An air-cathode microbial fuel cell ( ACMFC ) was successfully started up using anaerobic activated sludge as inoculums , generating a voltage of 0.24V after inoculations for 110 h.

在空气阴极生物燃料电池（ACMFC）中，从阴极扩散进入阳极的氧气能够被兼性微生物作为电子受体还原，进而导致电子损失严重。

In air-cathode microbial fuel cell ( ACMFC ), oxygen diffused into the reactor from cathode without PEM can be reduced as electron acceptor via aerobic respiration by facultative microorganisms , resulting in either a decreasing of power generation or electron loss .

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 .

阴极液环境条件对生物燃料电池性能的影响

Effect of catholyte environmental condition on the performance of microbial fuel cell

植入式医用生物燃料电池装置及试验研究

The Development and Experimental Study on Implantable Biofuel Cell for Medical Devices

基于树状大分子为模板制备铂纳米簇修饰生物燃料电池的阳极

Fabrication and performance of the dendrimer-Encapsulated Pt based anode of biofuel cell

采用填充床阳极的甲醇生物燃料电池

Study of the Biofuel Cell Based on Methanol Using the Packed Bed Anode

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 .

电极构型对空气阴极生物燃料电池发电性能的影响

Electrode Configuration as a Factor Affecting Electricity Generation in Air-Cathode Microbial Fuel Cell

同步废水处理和产能的上流式空气阴极生物燃料电池

An upflow air-cathode microbial fuel cell of simultaneous wastewater treatment and electricity generation

生物燃料电池酶电极电化学性能研究

Electrochemical properties of enzyme electrode in biofuel cell

不同阴极电子受体从生物燃料电池中发电的比较研究

Comparing study on electricity generation from different cathodic electron acceptors in microbial fuel cell

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 .

酶生物燃料电池中催化剂及其载体的基础研究

Catalysts and Supports in Enzymatic Biofuel Cell

生物燃料电池的研究进展

Progress in Research for Biofuel Cell

利用细菌发电的生物燃料电池产电特性研究

Discharge Characteristics of Microbial Fuel Cells

酶生物燃料电池的研究主要集中在寻找固定酶的新方法上及对电池放电性能的测试上。

In enzymatic biofuel cell aspect , more attention is concentrated on new method to immobilized enzyme .

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 .

阐述了生物燃料电池和以病毒为模板的二次电池的工作原理以及在电池结构和性能等方面取得的研究成果。

The principle of the biofuel cell and virus-enabled rechargeable battery and the relationship between the cell structure and the performance are described .

着重论述了含氟聚苯胺作为特种功能修饰剂在生物燃料电池、葡萄糖酶生物传感器等领域的研究与应用。

Investigation and applications of fluorine-containing polyanilines as special functional modifiers in some fields such as bacterial fuel cells and glucose enzyme biosensors are emphasized .

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 .

而酶生物燃料电池的研究，集中在寻找固定酶的新方法，发展体积更小的无介体酶生物燃料电池，以及与太阳电池相结合等方面。

While in enzymatic biofuel cell aspect , more attention is concentrated on new method to immobilize enzyme , mediator-less enzymatic biofuel cell and combination of biofuel cell and solar cell .

本论文构建的生物质燃料电池成本低廉，且性能优于目前已报道的以酶或微生物为催化剂的生物质燃料电池，有望推动生物燃料电池的商业化应用。

Its performance is higher than most of the existing biomass fuel cell such as enzymatic fuel cells and MFCs . It is expected to promote the commercialization of bio-fuel cell application .

对80年代后两种生物燃料电池&微生物燃料电池和酶燃料电池的研究动态分别进行了总结，并对目前存在的主要问题进行了分析。

Progress in the researches on two kinds of biofuel cell after 1980s microbial biofuel cell and enzymatic biofuel cell was summarized and obstacles that hindered the performance of biofuel cell were analyzed .