biofuel cell

Progress in Research for Biofuel Cell

生物燃料电池的研究进展

It can be classified into microbial fuel cell and enzymatic biofuel 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。

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

植入式医用生物燃料电池装置及试验研究

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

采用填充床阳极的甲醇生物燃料电池

Electrochemical properties of enzyme electrode in biofuel cell

生物燃料电池酶电极电化学性能研究

Objective To study the electrochemical features of an improved enzyme bioelectrode for biofuel 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。

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

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。

The Microbial Biofuel Cell Developed by the Biotechnology

利用生物技术发展的新型燃料电池-生物燃料电池

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

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

Catalysts and Supports in Enzymatic Biofuel Cell

酶生物燃料电池中催化剂及其载体的基础研究

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

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。

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

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。

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 .

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。

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 .

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。

By determining the discharge curve of a biofuel cell and polarization curve of electrodes , we pointed out that the amount of electron transferred to anode was the main bottleneck of a biofuel cell .

通过分析电池的放电曲线和极化曲线，指出阳极区电子输出是限制微生物燃料电池功率和电流输出的主要瓶颈。