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Microbial Fuel Cells: A Sophisticated and Promising Approach for Integrated Wastewater Treatment and Renewable Energy Generation

Author

Listed:
  • Bahaa A. Hemdan

    (Environmental Microbiology Lab., Water Pollution Research Department, National Research Centre, Dokki, Giza 12622, Egypt)

  • Marwa Youssef

    (Environmental Microbiology Lab., Water Pollution Research Department, National Research Centre, Dokki, Giza 12622, Egypt)

  • Hadeer E. Ali

    (Environmental Microbiology Lab., Water Pollution Research Department, National Research Centre, Dokki, Giza 12622, Egypt)

  • Gamila E. El-Taweel

    (Environmental Microbiology Lab., Water Pollution Research Department, National Research Centre, Dokki, Giza 12622, Egypt)

  • Mohamed Azab El-Liethy

    (Environmental Microbiology Lab., Water Pollution Research Department, National Research Centre, Dokki, Giza 12622, Egypt)

Abstract

The increasing worldwide demand for sustainable energy and effective waste management has heightened interest in solutions. Microbial fuel cells (MFCs) represent a potential category of bioelectrochemical systems that directly transform the chemical energy contained in organic waste into electrical energy via the metabolic processes of electroactive microorganisms. In the last twenty years, significant advancements have occurred in the comprehension of extracellular electron transfer (EET) mechanisms, biofilm formation, microbial community dynamics, electrode material engineering, and reactor design, resulting in marked enhancements in power density and wastewater treatment efficacy. Despite these breakthroughs, the extensive deployment and commercialization of MFC technology are constrained by various hurdles, including inadequate energy recovery, elevated material and fabrication expenses, operational instability, and the intricacies of system scale-up. This cutting-edge analysis offers a thorough evaluation of recent advancements in MFCs and their incorporation with sophisticated technology for waste management and energy generation. Focus is directed towards essential bioelectrochemical principles, microbial and biofilm engineering techniques, sophisticated electrode and membrane materials, reactor designs, and hybrid MFC systems integrated with anaerobic digestion, microbial electrolysis, and advanced oxidation methods. Ultimately, emerging trends, significant knowledge deficiencies, and future research goals are defined to inform the advancement of next-generation MFC systems that support circular economy and net-zero energy initiatives.

Suggested Citation

  • Bahaa A. Hemdan & Marwa Youssef & Hadeer E. Ali & Gamila E. El-Taweel & Mohamed Azab El-Liethy, 2026. "Microbial Fuel Cells: A Sophisticated and Promising Approach for Integrated Wastewater Treatment and Renewable Energy Generation," Sustainability, MDPI, vol. 18(12), pages 1-31, June.
  • Handle: RePEc:gam:jsusta:v:18:y:2026:i:12:p:5898-:d:1963095
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