A Carbon-Cloth Anode Electroplated with Iron Nanostructure for Microbial Fuel Cell Operated with Real Wastewater

Abstract: Microbial fuel cell (MFC) is an emerging method for extracting energy from wastewater. The power generated from such systems is low due to the sluggish electron transfer from the inside of the biocatalyst to the anode surface. One strategy for enhancing the electron transfer rate is anode modification. In this study, iron nanostructure was synthesized on a carbon cloth (CC) via a simple electroplating technique, and later investigated as a bio-anode in an MFC operated with real wastewater. The performance of a… Show more

“…The proper wastewater treatment in a well-designed and functioning wastewater treatment plant (WWTP) up to tertiary treatment with nutrients removal and efficient on-site sanitation, along with proper and reliable sludge treatment and discharge, should limit hazardous associated with biological matter, including bacteria and viruses including SARS-CoV-2 ( Lahrich et al, 2021 ). Membrane bioreactor and advanced oxidation process with advanced biosensors have been proposed as an efficient tool for the biological treatment of wastewater for the control of SARS-CoV-2 spread upon integration in WWTP ( Bedoui et al, 2011 ; Sayed et al, 2020 ; Tetteh et al, 2020 ; Wilberforce et al, 2020 ). Another approach is to have the wastewater generated by hospitals and highly infected areas treated according to a specific disinfection process before being discharged to municipality wastewater (J.…”

Effects of COVID-19 on the environment: An overview on air, water, wastewater, and solid waste

“…The proper wastewater treatment in a well-designed and functioning wastewater treatment plant (WWTP) up to tertiary treatment with nutrients removal and efficient on-site sanitation, along with proper and reliable sludge treatment and discharge, should limit hazardous associated with biological matter, including bacteria and viruses including SARS-CoV-2 ( Lahrich et al, 2021 ). Membrane bioreactor and advanced oxidation process with advanced biosensors have been proposed as an efficient tool for the biological treatment of wastewater for the control of SARS-CoV-2 spread upon integration in WWTP ( Bedoui et al, 2011 ; Sayed et al, 2020 ; Tetteh et al, 2020 ; Wilberforce et al, 2020 ). Another approach is to have the wastewater generated by hospitals and highly infected areas treated according to a specific disinfection process before being discharged to municipality wastewater (J.…”

Effects of COVID-19 on the environment: An overview on air, water, wastewater, and solid waste

“…Nanostructures of carbon are known to have different low-dimension allotropes of carbon such as activated carbon, carbon nanotubes (CNTs), and the C 60 family of buckyballs, graphite, and graphene [ 42 ]. Carbon nanostructures are widely used as nanoadsorbents for wastewater treatment owing to their abundant availability, cost-effectiveness, high chemical and thermal stabilities, high active surface areas, excellent adsorption capacities, and environmental friendly nature [ 43 ]. For years, activated carbon is being used as the most common adsorbent due to their high porosity and large surface area.…”

Nanotechnology in Wastewater Management: A New Paradigm Towards Wastewater Treatment

“…[178,179] When it was simply electrodeposited on carbon cloth, the carbon surface turned rougher and the specific surface area was enhanced, resulting in an efficient adsorption of microbes and electron transport between the anode and bacteria. [180] Besides carbon cloth, indium tin oxide (ITO) electrode modified with Fe 2 O 3 nanoparticles possessed a rougher surface for a stronger adhesion of microbes and enjoyed an induced assembly of lactic acid bacteria on the conductive network. [181] Also, the hydrophobic carbon surface can be hydrophilized by coating Fe 2 O 3 due to the hydrogen bond formed between oxygen of Fe 2 O 3 and water molecules.…”

Carbon‐Based Composites as Anodes for Microbial Fuel Cells: Recent Advances and Challenges