Microbial fuel cells generating electricity from rhizodeposits of rice plants (2008)
De Schamphelaire, L, Dang, H, Hofte, M, Boon, N, Rabaey, K, ...
Living plants transport substantial amounts of organic material into the soil. This process, called rhizodeposition, provides the substrate for the rhizospheric microbial community. In this study, a...
Perneel, M, D'hondt, L, De Maeyer, K, Adiobo, A, Rabaey, K, Hofte, M
In this study, the putative role of phenazines and rhamnolipid-biosurfactants, antagonistic metabolites produced by Pseudomonas aeruginosa PNA1, was tested in the biological control of Pythium...
Pham, T, Boon, N, Aelterman, P, Clauwaert, P, De Schamphelaire, L, Vanhaecke, L, ...
Previous studies revealed the abundance of Pseudomonas sp. in the microbial community of a microbial fuel cell (MFC). These bacteria can transfer electrons to the electrode via self-produced...
Boon, Nico, Aelterman, Peter, Clauwaert, Peter, Schamphelaire, Liesje De, Vanhaecke, Lynn, ...
Previous studies revealed the abundance of Pseudomonas sp. in the microbial community of a microbial fuel cell (MFC). These bacteria can transfer electrons to the electrode via self-produced...
Boon, N., Aelterman, P., Clauwaert, P., Schamphelaire, L. D., Vanhaecke, L., ...
Previous studies revealed the abundance of Pseudomonas sp. in the microbial community of a microbial fuel cell (MFC). These bacteria can transfer electrons to the electrode via self-produced...
Boon, N., Aelterman, P., Clauwaert, P., Schamphelaire, L. D., Vanhaecke, L., ...
Previous studies revealed the abundance of Pseudomonas sp. in the microbial community of a microbial fuel cell (MFC). These bacteria can transfer electrons to the electrode via self-produced...
Boon, N., Aelterman, P., Clauwaert, P., Schamphelaire, L. D., Vanhaecke, L., ...
Previous studies revealed the abundance of Pseudomonas sp. in the microbial community of a microbial fuel cell (MFC). These bacteria can transfer electrons to the electrode via self-produced...
Boon, N., Aelterman, P., Clauwaert, P., Schamphelaire, L. D., Vanhaecke, L., ...
Previous studies revealed the abundance of Pseudomonas sp. in the microbial community of a microbial fuel cell (MFC). These bacteria can transfer electrons to the electrode via self-produced...
Boon, N., Aelterman, P., Clauwaert, P., Schamphelaire, L. D., Vanhaecke, L., ...
Previous studies revealed the abundance of Pseudomonas sp. in the microbial community of a microbial fuel cell (MFC). These bacteria can transfer electrons to the electrode via self-produced...
Pham, The Hai, Boon, Nico, Aelterman, Peter, Clauwaert, Peter, Schamphelaire, Liesje De, Vanhaecke, Lynn, ...
Previous studies revealed the abundance of Pseudomonas sp. in the microbial community of a microbial fuel cell (MFC). These bacteria can transfer electrons to the electrode via self-produced...
Boon, Nico, Aelterman, Peter, Clauwaert, Peter, Schamphelaire, Liesje De, Vanhaecke, Lynn, ...
Previous studies revealed the abundance of Pseudomonas sp. in the microbial community of a microbial fuel cell (MFC). These bacteria can transfer electrons to the electrode via self-produced...
Boon, Nico, Aelterman, Peter, Clauwaert, Peter, Schamphelaire, Liesje De, Vanhaecke, Lynn, ...
Previous studies revealed the abundance of Pseudomonas sp. in the microbial community of a microbial fuel cell (MFC). These bacteria can transfer electrons to the electrode via self-produced...
Pham, The Hai, Boon, Nico, Aelterman, Peter, Clauwaert, Peter, Schamphelaire, Liesje De, Vanhaecke, Lynn, ...
Previous studies revealed the abundance of Pseudomonas sp. in the microbial community of a microbial fuel cell (MFC). These bacteria can transfer electrons to the electrode via self-produced...
Aelterman, Peter, Boon, Nico, Clauwaert, Peter, De Maeyer, Katrien, Höfte, Monica, ...
Previous studies revealed the abundance of Pseudomonas sp. in the microbial community of a microbial fuel cell (MFC). These bacteria can transfer electrons to the electrode via self-produced...
Boon, Nico, Aelterman, Peter, Clauwaert, Peter, Schamphelaire, Liesje De, Vanhaecke, Lynn, ...
Previous studies revealed the abundance of Pseudomonas sp. in the microbial community of a microbial fuel cell (MFC). These bacteria can transfer electrons to the electrode via self-produced...
Boon, Nico, Aelterman, Peter, Clauwaert, Peter, Schamphelaire, Liesje De, Vanhaecke, Lynn, ...
Previous studies revealed the abundance of Pseudomonas sp. in the microbial community of a microbial fuel cell (MFC). These bacteria can transfer electrons to the electrode via self-produced...
Boon, Nico, Aelterman, Peter, Clauwaert, Peter, Schamphelaire, Liesje De, Vanhaecke, Lynn, ...
Previous studies revealed the abundance of Pseudomonas sp. in the microbial community of a microbial fuel cell (MFC). These bacteria can transfer electrons to the electrode via self-produced...
Boon, Nico, Aelterman, Peter, Clauwaert, Peter, De Maeyer, Katrien, Vanhaecke, Lynn, ...
Previous studies revealed the abundance of Pseudomonas sp. in the microbial community of a microbial fuel cell (MFC). These bacteria can transfer electrons to the electrode via self-produced...
Boon, Nico, Aelterman, P., Clauwaert, P., De Schamphelaire, Liesje, Vanhaecke, L., ...
Previous studies revealed the abundance of Pseudomonas sp. in the microbial community of a microbial fuel cell (MFC). These bacteria can transfer electrons to the electrode via self-produced...
Boon, Nico, Aelterman, P., Clauwaert, P., De Schamphelaire, Liesje, Vanhaecke, L., ...
Previous studies revealed the abundance of Pseudomonas sp. in the microbial community of a microbial fuel cell (MFC). These bacteria can transfer electrons to the electrode via self-produced...
Boon, Nico, Aelterman, Peter, Clauwaert, Peter, Vanhaecke, Lynn, De Maeyer, Katrien, ...
Previous studies revealed the abundance of Pseudomonas sp. in the microbial community of a microbial fuel cell (MFC). These bacteria can transfer electrons to the electrode via self-produced...
Boon, Nico, Aelterman, P., Clauwaert, P., De Schamphelaire, Liesje, Vanhaecke, L., ...
Previous studies revealed the abundance of Pseudomonas sp. in the microbial community of a microbial fuel cell (MFC). These bacteria can transfer electrons to the electrode via self-produced...
Towards practical implementation of bioelectrochemical wastewater treatment (2008)
Rozendal, R.A., Hamelers, H.V.M., Rabaey, K., Keller, J., Buisman, C.J.N.
Bioelectrochemical systems (BESs), such as microbial fuel cells (MFCs) and microbial electrolysis cells (MECs), are generally regarded as a promising future technology for the production of energy...
Combining biocatalyzed electrolysis with anaerobic digestion (2008)
Clauwaert, Peter, TOLEDO, R, Van Der Ha, David, Crab, Roselien, Verstraete, Willy, HU, H, ...
Microbial fuel cells as an engineered ecosystem (2008)
Aelterman, Peter, RABAEY, K, De Schamphelaire, Liesje, Clauwaert, Peter, Boon, Nico, Verstraete, Willy
Microbial fuel cells generating electricity from rhizodeposits of rice plants (2008)
De Schamphelaire, Liesje, Van Den Bossche, Leen, DANG, HS, Höfte, Monica, Boon, Nico, RABAEY, K, ...
Pham, The Hai, Boon, Nico, Aelterman, Peter, Clauwaert, Peter, Schamphelaire, Liesje De, Vanhaecke, Lynn, ...
Previous studies revealed the abundance of Pseudomonas sp. in the microbial community of a microbial fuel cell (MFC). These bacteria can transfer electrons to the electrode via self-produced...
Microbial Fuel cell cathodes: from bottlenecks to prime opportunity? (2008)
Microbial fuel cells that can generate energy out of wastewaters are close to pilot scale testing. As such, MFC technology is complementary to methane generation due to the possibility to rapidly...
Microbial ecology meets electrochemistry: electricity-driven and driving communities (2007)
Rabaey, K, Rodriguez, J, Blackall, LL, Keller, J, Gross, P, Batstone, D, ...
Bio-electrochemical systems (BESs) have recently emerged as an exciting technology. In a BES, bacteria interact with electrodes using electrons, which are either removed or supplied through an...
Open air biocathode enables effective electricity generation with microbial fuel cells (2007)
Clauwaert, P., Boon, N., Verbeken, K., Verhaege, M., Rabaey, K., ...
The reduction of oxygen at the cathode is one of the major bottlenecks of microbial fuel cells (MFCs). While research so far has mainly focused on chemical catalysis of this oxygen reduction, here we...
Non-catalyzed cathodic oxygen reduction at graphite granules in microbial fuel cells (2007)
Freguia, S, Rabaey, K, Yuan, Z, Keller, J
Oxygen is the most sustainable electron acceptor currently available for microbial fuel cell (MFC) cathodes. However, its high overpotential for reduction to water limits the current that can be...
Freguia, S, Rabaey, K, Yuan, ZG, Keller, J
Microbial fuel cells (MFCs) are emerging as a novel technology with a great potential to reduce the costs of wastewater treatment. Their most studied application is organic carbon removal. One of the...
Biological denitrification in microbial fuel cells (2007)
Clauwaert, P, Rabaey, K, Aelterman, P, De Schamphelaire, L, Ham, TH, Boeckx, P, ...
Microbial fuel cells (MFCs) that remove carbon as well as nitrogen compounds out of wastewater are of special interest for practice. We developed a MFC in which microorganisms in the cathode...
Freguia, S., Rabaey, K., Yuan, Z., Keller, J.
Microbial fuel cells (MFCs) are emerging as a novel technology with a great potential to reduce the costs of wastewater treatment. Their most studied application is organic carbon removal. One of the...
Biological denitrification driven by microbial fuel cells (2007)
Clauwaert, P., Rabaey, K., Aelterman, P., De Schamphelaire, L., The Pham, H., Boeck, P., ...
Open air biocathode enables effective electricity generation with microbial fuel cells (2007)
Clauwaert, P., Boon, N., Verbeken, K., Verhaege, M, Rabaey, K., ...
Minireview: The potential of enhanced manganese redox cycling for sediment oxidation (2007)
De Schamphelaire, L., Rabaey, K., Boeckx, P., Boon, N., Verstraete, W.
Both natural and anthropogenic processes are responsible for excessive organic loading of submerged soils, with detrimental environmental consequences. The often insufficient natural attenuation can...
Design and construction of a pilot scale microbial fuel cell running on brewery wastewater (2007)
Butzer, S., Rabaey, K., Freguia, S., Chumpia, A., Keller, J.
Microbial fuel cell cathodes: from bottleneck to prime opportunity? (2007)
Microbial fuel cells that can generate energy out of wastewaters are close to pilot scale testing. As such, MFC technology is complementary to methane generation due to the possibility to rapidly...
Microbial Fuel Cells: from energy generation to nutrient removal (2007)
Rabaey, K., Virdis, B., Clauwaert, P., Dutta, P., Keller, J.
Non-catalyzed cathodic oxygen reduction at graphite granules in Microbial Fuel Cells (2007)
Freguia, S., Rabaey, K., Yuan, Z., Keller, J.
Oxygen is the most sustainable electron acceptor currently available for microbial fuel cell (MFC) cathodes. However, its high overpotential for reduction to water limits the current that can be...
Communities Driving Electricity Support Communities Thriving on Electricity (2007)
Rabaey, K., Rodriguez, J., Clauwaert, P., Virdis, B., The Pham, H., Aelterman, P., ...
Extracellular electron transfer (EET) is a common bacterial strategy to utilize insoluble electron donors and acceptors for the generation of metabolic energy. In bio-electrochemical systems (BES),...
Microbial ecology meets electrochemistry: electricity driven and driving communities (2007)
Rabaey, K., Rodriguez, J., Blackall, L. L., Keller, J., Batstone, D. J., Verstraete, W., ...
Bio-electrochemical systems (BESs) have recently emerged as an exciting technology. In a BES, bacteria interact with electrodes using electrons, which are either removed or supplied through an...
Open air biocathode enables effective electricity generation with microbial fuel cells (2007)
Clauwaert, P., Boon, N., Verbeken, K., Verhaege, M., Rabaey, K., ...
The reduction of oxygen at the cathode is one of the major bottlenecks of microbial fuel cells (MFCs). While research so far has mainly focused on chemical catalysis of this oxygen reduction, here we...
Non-catalyzed cathodic oxygen reduction at graphite granules in Microbial Fuel Cells (2007)
Freguia, S., Rabaey, K., Yuan, Z., Keller, J.
Oxygen is the most sustainable electron acceptor currently available for microbial fuel cell (MFC) cathodes. However, its high overpotential for reduction to water limits the current that can be...
Freguia, S., Rabaey, K., Yuan, Z., Keller, J.
Microbial fuel cells (MFCs) are emerging as a novel technology with a great potential to reduce the costs of wastewater treatment. Their most studied application is organic carbon removal. One of the...
Biological denitrification driven by microbial fuel cells (2007)
Clauwaert, P., Rabaey, K., Aelterman, P., De Schamphelaire, L., The Pham, H., Boeck, P., ...
Microbial fuel cells (MFCs) that remove carbon as well as nitrogen compounds out of wastewater are of special interest for practice. We developed a MFC in which microorganisms in the cathode...
Communities Driving Electricity Support Communities Thriving on Electricity (2007)
Rabaey, K., Rodriguez, J., Clauwaert, P., Virdis, B., The Pham, H., Aelterman, P., ...
Extracellular electron transfer (EET) is a common bacterial strategy to utilize insoluble electron donors and acceptors for the generation of metabolic energy. In bio-electrochemical systems (BES),...
Minireview: The potential of enhanced manganese redox cycling for sediment oxidation (2007)
De Schamphelaire, L., Rabaey, K., Boeckx, P., Boon, N., Verstraete, W.
Both natural and anthropogenic processes are responsible for excessive organic loading of submerged soils, with detrimental environmental consequences. The often insufficient natural attenuation can...
Microbial ecology meets electrochemistry: electricity driven and driving communities (2007)
Rabaey, K., Rodriguez, J., Blackall, L. L., Keller, J., Batstone, D. J., Verstraete, W., ...
Bio-electrochemical systems (BESs) have recently emerged as an exciting technology. In a BES, bacteria interact with electrodes using electrons, which are either removed or supplied through an...
Design and construction of a pilot scale microbial fuel cell running on brewery wastewater (2007)
Butzer, S., Rabaey, K., Freguia, S., Chumpia, A., Keller, J.
Microbial fuel cell cathodes: from bottleneck to prime opportunity? (2007)
Microbial fuel cells that can generate energy out of wastewaters are close to pilot scale testing. As such, MFC technology is complementary to methane generation due to the possibility to rapidly...
Microbial Fuel Cells: from energy generation to nutrient removal (2007)
Rabaey, K., Virdis, B., Clauwaert, P., Dutta, P., Keller, J.
Microbial Fuel Cells: Methodology and Technology (2006)
Logan, B.E., Hamelers, H.V.M., Rozendal, R.A., Schröder, U., Keller, J, Freguia, S., ...
Microbial fuel cell (MFC) research is a rapidly evolving field that lacks established terminology and methods for the analysis of system performance. This makes it difficult for researchers to...
Microbial Fuel Cells for Sulfide Removal (2006)
Rabaey, K., Maignien, L., Boon, N., Aelterman, P., Clauwaert, P., ...
Thus far, microbial fuel cells (MFCs) have been used to convert carbon-based substrates to electricity. However, sulfur compounds are ubiquitously present in organic waste and wastewater. In this...
Microbial Fuel Cells in Relation to Conventional Anaerobic Digestion Technology (2006)
Pham, T. H., Rabaey, K., Aelterman, P., Clauwaert, P., De Schamphelaire, L., Boon, N., ...
Conventional anaerobic digestion based bioconversion processes produce biogas and have as such been widely applied for the production of renewable energy so far. An innovative technology, based on...
Microbial fuel cells for wastewater treatment (2006)
Aelterman, P., Rabaey, K., Clauwaert, P., Verstraete, W.
Microbial fuel cells (MFCs) are emerging as promising technology for the treatment of wastewaters. The potential energy conversion efficiencies are examined. The rates of energy recovery (W/m3...
Microbial Fuel Cells in Relation to Conventional Anaerobic Digestion Technology (2006)
Pham, T. H., Rabaey, K., Aelterman, P., Clauwaert, P., De Schamphelaire, L., Boon, N., ...
Conventional anaerobic digestion based bioconversion processes produce biogas and have as such been widely applied for the production of renewable energy so far. An innovative technology, based on...
Microbial fuel cells for wastewater treatment (2006)
Aelterman, P., Rabaey, K., Clauwaert, P., Verstraete, W.
Microbial fuel cells (MFCs) are emerging as promising technology for the treatment of wastewaters. The potential energy conversion efficiencies are examined. The rates of energy recovery (W/m3...
Anaerobic digestion as a core technology in sustainable management of organic matter (2005)
Verstraete, W., Morgan-Sagastume, F., Aiyuk, S., Waweru, M., Rabaey, K., Lissens, G.
In the past decades, anaerobic digestion (AD) has steadily gained importance. However, the technology is not regarded as a top priority in science policy and in industrial development at present. In...
Continuous microbial fuel cells convert carbohydrates to electricity (2005)
Rabaey, K., Ossieur, W., Verhaege, M., Verstraete, W.
Microbial fuel cells which are operated in continuous mode are more suitable for practical applications than fed batch ones. Three influent types containing carbohydrates were tested, i.e. a glucose...
Anaerobic digestion as a core technology in sustainable management of organic matter (2005)
Verstraete, W., Morgan-Sagastume, F., Aiyuk, S., Waweru, M., Rabaey, K., Lissens, G.
In the past decades, anaerobic digestion (AD) has steadily gained importance. However, the technology is not regarded as a top priority in science policy and in industrial development at present. In...
Continuous microbial fuel cells convert carbohydrates to electricity (2005)
Rabaey, K., Ossieur, W., Verhaege, M., Verstraete, W.
Microbial fuel cells which are operated in continuous mode are more suitable for practical applications than fed batch ones. Three influent types containing carbohydrates were tested, i.e. a glucose...
Continuous microbial fuel cells convert carbohydrates to electricity (2005)
Rabaey, K., Ossieur, W., Verhaege, M., Verstraete, W.
Microbial fuel cells which are operated in continuous mode are more suitable for practical applications than fed batch ones. Three influent types containing carbohydrates were tested, i.e. a glucose...
Biofuel cells select for microbial consortia that self-mediate electron transfer (2004)
Rabaey, K, Boon, N, Siciliano, S, Verhaege, M, Verstraete, W
Microbial fuel cells hold great promise as a sustainable biotechnological solution to future energy needs. Current efforts to improve the efficiency of such fuel cells are limited by the lack of...
Anaerobic digestion as a core technology in sustainable management of organic matter. (2004)
Verstraete, W., Morgan, F., Aiyuk, S., Waweru, M., Rabaey, K., Lissens, G.
In the past decades, anaerobic digestion (AD) has steadily gained importance. However, the technology is not regarded as a top priority in science policy and in industrial development at present. In...
Continuous microbial fuel cells convert carbohydrates to electricity (2004)
Rabaey, K., Ossieur, W., Verhaegem, M., Verstraete, W.
Microbial fuel cells which are operated in continuous mode are more suitable for practical applications than fed batch ones. Three influent types containing carbohydrates were tested, i.e. a glucose...
Anaerobic digestion as a core technology in sustainable management of organic matter. (2004)
Verstraete, W., Morgan, F., Aiyuk, S., Waweru, M., Rabaey, K., Lissens, G.
In the past decades, anaerobic digestion (AD) has steadily gained importance. However, the technology is not regarded as a top priority in science policy and in industrial development at present. In...
Continuous microbial fuel cells convert carbohydrates to electricity (2004)
Rabaey, K., Ossieur, W., Verhaegem, M., Verstraete, W.
Microbial fuel cells which are operated in continuous mode are more suitable for practical applications than fed batch ones. Three influent types containing carbohydrates were tested, i.e. a glucose...