Add to ORKGThe attachment of microorganisms to electrodes is of great interest for electricity generation in microbial fuel cells (MFC) or other applications in bioelectrochemical systems (BES). In this work, a microcosm of the acidic ecosystem of Río Tinto was built and graphite electrodes were introduced at different points. This allowed the study of electricity generation in the sediment/water interface and the involvement of acidophilic microorganisms as biocatalysts of the anodic and cathodic reactions in a fuel-cell configuration. Current densities and power outputs of up to 3.5 A/m2 and 0.3 W/m2, respectively, were measured at pH 3. Microbial analyses of the electrode surfaces showed that Acidiphilium spp., which...
Microbial fuel cells hold great promise as a sustainable biotechnological solution to future energy ...
<p>Sulfide mineral processing often produces large quantities of wastewaters containing acid-generat...
Electricity was generated from the Dead Sea mud through constructing and operating microbial fuel ce...
The attachment of microorganisms to electrodes is of great interest for electricity generation in mi...
Nowadays, there is great interest in microbial fuel cells because of the different substrates that c...
Comparative measurement of electricity produced by inherent eletrogens in benthic mud that were main...
For a few years it has been demonstrated that micro-organisms contained in different natural environ...
Many bacteria can convert chemical energy to electrical energy: they oxidize diverse organic substra...
The decentralized production of bioelectricity as well as the bioremediation of contaminated sedimen...
The benefits of sediment microbial fuel cells (SMFCs) go beyond energy generation for low-power appl...
AbstractSulfide mineral processing often produces large quantities of wastewaters containing acid-ge...
[Background] Microbial fuel cells (MFCs) operating with complex microbial communities have been exte...
Microbial Fuel Cell (MFC) technology has been heralded as a tool for energy conservation, resource r...
A graphite electrode and a stainless steel electrode immersed in exactly the same medium and polaris...
In the past 10-15 years, the microbial fuel cell (MFC) technology has captured the attention of the ...
Microbial fuel cells hold great promise as a sustainable biotechnological solution to future energy ...
<p>Sulfide mineral processing often produces large quantities of wastewaters containing acid-generat...
Electricity was generated from the Dead Sea mud through constructing and operating microbial fuel ce...
The attachment of microorganisms to electrodes is of great interest for electricity generation in mi...
Nowadays, there is great interest in microbial fuel cells because of the different substrates that c...
Comparative measurement of electricity produced by inherent eletrogens in benthic mud that were main...
For a few years it has been demonstrated that micro-organisms contained in different natural environ...
Many bacteria can convert chemical energy to electrical energy: they oxidize diverse organic substra...
The decentralized production of bioelectricity as well as the bioremediation of contaminated sedimen...
The benefits of sediment microbial fuel cells (SMFCs) go beyond energy generation for low-power appl...
AbstractSulfide mineral processing often produces large quantities of wastewaters containing acid-ge...
[Background] Microbial fuel cells (MFCs) operating with complex microbial communities have been exte...
Microbial Fuel Cell (MFC) technology has been heralded as a tool for energy conservation, resource r...
A graphite electrode and a stainless steel electrode immersed in exactly the same medium and polaris...
In the past 10-15 years, the microbial fuel cell (MFC) technology has captured the attention of the ...
Microbial fuel cells hold great promise as a sustainable biotechnological solution to future energy ...
<p>Sulfide mineral processing often produces large quantities of wastewaters containing acid-generat...
Electricity was generated from the Dead Sea mud through constructing and operating microbial fuel ce...