Biofuel cells promise power generation with low cost and almost unlimited biocatalyst supply. This paper reports new perspectives on the characterization of immobilized thermostable (Pyrococcus,furiosus) hydrogenase electrodes in working configuration, using a combination of well defined electrochemical and spectrophotometric techniques. Electrodes based on porous pyrolytic carbon paper (PCP) and packed graphite columns (PGC) were fabricated for hydrogenase immobilization, which used a direct (hydrophilic adsorption) technique. Potentiostatic de polarization, dynamic potentiometry, and electrochemical impedance spectroscopy (EIS) were combined with spectrophotometric detection of enzyme activity in order to characterize the electrodes and d...
Advances in the electrical communications between enzymes and electrodes made it possible to the fab...
This thesis focuses on studies of both enzymatic (EFC) and microbial (MFC) fuel cells. In the enzyma...
Presented on February 18, 2009, from 4-5 pm in room G011 of the Molecular Science and Engineering B...
Biofuel cells promise power generation with low cost and almost unlimited biocatalyst supply. This p...
A variety of dynamic electrochemical techniques are being applied in order to learn about the proper...
International audienceUsing redox enzymes as biocatalysts in fuel cells is an attractive strategy fo...
Using redox enzymes as biocatalysts in fuel cells is an attractive strategy for sustainable energy p...
Fuel cell is a device that can directly convert chemical energy into electrical energy. For low-temp...
Enzymatic fuel cells (EFCs) are bioelectronic devices based on redox enzymes, which convert chemical...
Biological fuel cells are a type of fuel cells that contain biological components, like enzymes, pr...
Enzyme catalyzed biofuel cells have been proposed as an alternative to transition metal catalysts fo...
Platinum sensibility to impurities in hydrogen fuel cells remains one of the major issues to be solv...
This article discusses some of the more commonly used electrochemical methods for investigation of e...
The immobilisation chemistry of enzymes and redox complexes capable of shuttling electrons between e...
The present work is mainly focused on the development of enzyme-based bioanalytical devices, which c...
Advances in the electrical communications between enzymes and electrodes made it possible to the fab...
This thesis focuses on studies of both enzymatic (EFC) and microbial (MFC) fuel cells. In the enzyma...
Presented on February 18, 2009, from 4-5 pm in room G011 of the Molecular Science and Engineering B...
Biofuel cells promise power generation with low cost and almost unlimited biocatalyst supply. This p...
A variety of dynamic electrochemical techniques are being applied in order to learn about the proper...
International audienceUsing redox enzymes as biocatalysts in fuel cells is an attractive strategy fo...
Using redox enzymes as biocatalysts in fuel cells is an attractive strategy for sustainable energy p...
Fuel cell is a device that can directly convert chemical energy into electrical energy. For low-temp...
Enzymatic fuel cells (EFCs) are bioelectronic devices based on redox enzymes, which convert chemical...
Biological fuel cells are a type of fuel cells that contain biological components, like enzymes, pr...
Enzyme catalyzed biofuel cells have been proposed as an alternative to transition metal catalysts fo...
Platinum sensibility to impurities in hydrogen fuel cells remains one of the major issues to be solv...
This article discusses some of the more commonly used electrochemical methods for investigation of e...
The immobilisation chemistry of enzymes and redox complexes capable of shuttling electrons between e...
The present work is mainly focused on the development of enzyme-based bioanalytical devices, which c...
Advances in the electrical communications between enzymes and electrodes made it possible to the fab...
This thesis focuses on studies of both enzymatic (EFC) and microbial (MFC) fuel cells. In the enzyma...
Presented on February 18, 2009, from 4-5 pm in room G011 of the Molecular Science and Engineering B...