SECTION-I. Fundamentals and new knowledge in the field of METs SECTION-II. Current and emerging applications of Microbial Electrochemical Technology (MET) SECTION-III. Current and new trends in the electrochemical synthesis using Microbial electrochemical Technology SECTION-IV. Current and emerging new design and materials in Microbial electrochemical Technology SECTION-V. Current and emerging trends in wastewater treatment, bioremediation, biosensing and resource recovery using Microbial Electrochemical Technology SECTION-VI. Updates in scale-up of METs and commercialization 1. Microbial Electrochemical Technology-A platform Technology for multiple functionalities: Recent development in novel reactor design 2. Fundamental and new understanding of bidirectional electron shuttling in METs: electroactive microbial consortium, novel materials, and mediators 3. Recent Updates in extracellular electron transport in model electroactive bacteria Geobacter and Shewanella 4. Bioelectrochemical characterization techniques for enhanced understanding of METs. 5. Electroactivity enhancement using mediators in METs for biotechnological Applications 6. Fundamental of microbial energetic, bioelectrochemical energy transitions and losses 7. Life cycle analysis and life cycle cost analysis in METs to the evaluate feasibility of the device to fit into the circular economy concept 8. Emerging electroactive cable bacterium and its potential application in environmental remediation, 9. Robust application of microbial electrochemical technology coupled with constructed wetlands 10. METLAND system as an emerging commercial application platform of microbial electrochemical technology 11. Bio-Electro-Fenton reaction development and its application for treatment of recalcitrant pollutants of wastewater 12. Natural conductive materials based geobattery and bio-snorkel mechanisms in biogeochemical cycles, 13. Electrode-dependent anaerobic ammonium oxidation for wastewater treatment by anammox bacteria. 14. Electrode assisted methanogenesis in microbial electrochemical technology. 15. Efficient removal of toxic metals from wastewater using microbial electrochemical technology 16. Production of biofertilizer using microbial electrochemical technology 17. Microbial protein synthesis from CO₂ and green electricity. 18. In-situ production of microbial protein with reclaimed ammonium in a microbial electrochemical recovery conversion cell. 19. METs based microalgae biorefinery. 20. New trends in electrofermentation for chemicals and fuels synthesis 21. Recent updates in CO2 valorization in microbial electrochemical technologies for producing various products 22. Development of biocathode and photoanode for solar energy-driven microbial electrosynthesis. 23. Novel cathode materials-assisted hydrogen synthesis in MES with or without microbial chassis 24. Methane up-gradation in MES integrated anaerobic digestions: affect novel electrodes and design 25. Integrating artificial photosynthesis with microbial skeleton to drive self-sustainable bioelectrochemical CO2 reduction reaction: Fundamentals and recent advancements in photoactive materials 26. Characterization of fluidized vs. fixed granular activated carbon beds as cathodes and their applications. 27. An overview of current and emerging design of Microbial electrochemical Technology 28. Nitrogen and phosphate recovery from 3-chamber bioelectroconcentration cell 29. Microbial recycling cells for nutrients recovery from food-industry Wastewater 30. Electroactive Biiotrickling filters for the treatment of aquaponics wastewater. 31. Functional materials coated gas diffusion electrodes for enhanced value-added product recovery in MESs. 32. Organic-inorganic frameworks for efficient CO₂ conversion: Synthesis techniques and mechanisms 33. Bioremdiation of petroleum hydrocarbons using Microbial Electrochemical Technology 34. Electrobioremediation of contaminated sediments, 35. Textile wastewater treatment in Microbial Electrochemical Technology 36. Recent advances in microbial fuel cell sensors for water and wastewater monitoring 37. Development of microbial electrochemical cell technology-based biosensor for detecting recalcitrant pollutants 38. Electrochemical approaches with novel electrodes to treat emerging contaminants in water and water stream 39. U (VI) interactions with biocathode for remediation of radioactive materials contaminated wastewater using bioelectrochemical systems 40. Bioelectrochemical mining of heavy metals form low-valued waste streams: A sustainable approach towards promoting circular economy 41. Wastewater treatment experience with large scale microbial fuel cell 42. Approaching towards real-world application of Microbial Electrochemical Technologies in the context of CO2 valorization and biogas upgrading 43. Full scale commercial applications of Plant-MFCs for producing electricity