Current challenges and future perspectives associated with configuration of microbial fuel cell for simultaneous energy generation and wastewater treatment
Environmental eutrophication of untreated heavy wastewater by industries and urban
centers is a very serious concern for environmental protection agencies. Microbial Fuel Cell …
centers is a very serious concern for environmental protection agencies. Microbial Fuel Cell …
Scalability of microbial electrochemical technologies: Applications and challenges
During wastewater treatment, microbial electrochemical technologies (METs) are a
promising means for in situ energy harvesting and resource recovery. The primary constraint …
promising means for in situ energy harvesting and resource recovery. The primary constraint …
Biopolymer-based electrospun fibers in electrochemical devices: versatile platform for energy, environment, and health monitoring
Electrochemical power tools are regarded as essential keys in a world that is becoming
increasingly reliant on fossil fuels in order to meet the challenges of rapidly depleting fossil …
increasingly reliant on fossil fuels in order to meet the challenges of rapidly depleting fossil …
Scale-up of the bioelectrochemical system: Strategic perspectives and normalization of performance indices
Electrochemists and ecological engineers find environmental bioelectrochemistry
appealing; however, there is a big gap between expectations and actual progress in …
appealing; however, there is a big gap between expectations and actual progress in …
Review on waste biomass valorization and power management systems for microbial fuel cell application
Microbial fuel cell (MFC) is a promising technology to generate bioelectricity from biomass
feedstocks at mild operating temperature and pressure conditions. Despite promising …
feedstocks at mild operating temperature and pressure conditions. Despite promising …
Insights into the development of microbial fuel cells for generating biohydrogen, bioelectricity, and treating wastewater
Bio-electrochemical systems, such as microbial fuel cells (MFCs), serve as greener
alternatives to conventional fuel energy. Despite the burgeoning review works on MFCs …
alternatives to conventional fuel energy. Despite the burgeoning review works on MFCs …
Contribution of configurations, electrode and membrane materials, electron transfer mechanisms, and cost of components on the current and future development of …
Microbial fuel cells (MFCs) are a technology that can be applied to both the wastewater
treatment and bioenergy generation. This work discusses the contribution of improvements …
treatment and bioenergy generation. This work discusses the contribution of improvements …
Statistical analysis and visualization of data of non-fullerene small molecule acceptors from Harvard organic photovoltaic database. Structural similarity analysis with …
Data-driven material design has gained the position of “fourth paradigm” with the first three
being experiments, theory, and simulation. The statistical analysis and visualization of data …
being experiments, theory, and simulation. The statistical analysis and visualization of data …
Cosmetic industrial wastewater treatment and bioelectricity production in upflow microbial fuel cell (UMFC) using extremophilic bacterial consortium
Background Cosmetic industrial wastewater (CIWW) with highly toxic pollutants (petroleum
ether, fats, oils and detergents) and high COD (chemical oxygen demand) concentration act …
ether, fats, oils and detergents) and high COD (chemical oxygen demand) concentration act …
Carbon paste/LDH/bacteria biohybrid for the modification of the anode electrode of a microbial fuel cell
Background The biocatalytic activity of anode electrodes in microbial fuel cell systems is
usually established using biofilm layers, which due to their instability, may detach during the …
usually established using biofilm layers, which due to their instability, may detach during the …