Peer-Reviewed Publications

  1. Kiran R., Yadav R., Sathe D. and Patil S.A. Halophilic CO2-fixing microbial community as biocatalyst improves the energy efficiency of the microbial electrosynthesis process. Bioresouce Technology, 128637 (2023)

  2. Liu Z., Xue X., Cai W., Cui K. and Patil S.A. Recent progress on microbial electrosynthesis reactor designs and strategies to enhance the reactor performance. Biochemical Engineering Journal, 108745 (2023)

  3. Yadav R., Chattopadhyay B., Kiran R., Yadav A., Bachhawat A.K and Patil S.A. Microbial electrosynthesis from carbon dioxide feedstock linked to yeast growth for the production of high-value isoprenoids. Bioresource Technology, 127906 (2022)

  4. Yadav S. Singh R., Sundharam S.S., Chaudhury S., Krishnamurthi S. and Patil S.A. Geoalkalibacter halelectricus SAP‐1 sp. nov. possessing extracellular electron transfer and mineral‐reducing capabilities from a haloalkaline environment. Environmental Microbiology, 1– 16(2022)

  5. Pant D. and Patil S.A. Microbially catalyzed bioelectrochemical power devices come of age. Joule 6 (7), 1399-1401(2022)

  6. Yadav R., Chiranjeevi P., Yadav S., Singh R. and Patil S.A. Electricity-driven bioproduction from CO2 and N2 feedstocks using enriched mixed microbial culture. Journal of CO2 Utilization, 60, 101997 (2022)

  7. Roy M., Aryal N., Zhang Y., Patil S.A.* and Pant D. Technological progress and readiness level of microbial electrosynthesis and electrofermentation for carbon dioxide and organic wastes valorization. Current Opinion in Green and Sustainable Chemistry, 35, 100605 (2022)

  8. Chaudhary S., Yadav S., Singh R., Sadhotra C. and Patil S.A. Extremophilic electroactive microorganisms: Promising biocatalysts for bioprocessing applications. Bioresource Technology, 347, 126663 (2022)

  9. Singh R., Chaudhary S., Yadav S. and Patil S.A. Protocol for bioelectrochemical enrichment, cultivation, and characterization of extreme electroactive microorganisms. STAR Protocols, 3(1), 101114 (2022)

  10. Yadav R.K., Sahoo S. and Patil S.A. Performance evaluation of the integrated hydroponics- microbial electrochemical technology (iHydroMET) for decentralized domestic wastewater treatment, Chemosphere, 288, 132514 (2022)

  11. Roy M., Yadav S. and Patil S.A. Biogas upgradation through CO2 conversion into acetic acid via microbial electrosynthesis. Frontiers in Energy Research, 9, 759678 (2021)

  12. Yadav R.K., Sahoo S., Yadav A.K. and Patil S.A. Epipremnum aureum is a promising plant candidate for developing nature-based technologies for nutrients removal from wastewaters. Journal of Environmental Chemical Engineering, 9(5), 106134 (2021)

  13. Chaudhary S., Singh, R., Sukrampal and Patil S.A. (2021): Electrochemical enrichment of haloalkaliphilic nitrate-reducing microbial biofilm at the cathode of bioelectrochemical systems. iScience, 24 (6), 102682 (2021)

  14. Jiang M., Gao Y., Patil S.A., Hou H., Feng W. and Chen S. Reactive coating modification of metal material with strong bonding strength and enhanced corrosion resistance for high- performance bioelectrode of microbial electrochemical technologies. Journal of Power Sources, 491, 229595 (2021)

  15. Gupta S., Srivasatva P. Patil S.A. and Yadav A.K. A comprehensive review on emerging constructed wetland coupled microbial fuel cell technology: potential applications and challenges. Bioresource Technology, 320 (Part B), 124376 (2021)

  16. Roy M. Yadav R. Chiranjeevi P. and Patil S.A. Direct utilization of industrial carbon dioxide with low impurities for acetate production via microbial electrosynthesis. Bioresource Technology, 124289 (2020)

  17. Yadav S. and Patil S.A. Microbial electroactive biofilms dominated by Geoalkalibacter spp. from a highly saline–alkaline environment. npj Biofilms Microbiomes 6, 38 (2020)

  18. Das S., Ludo D., Pant D., Patil S.A. and Ghangrekar M.M. Microbial electrosynthesis: A way towards the production of electro-commodities through carbon sequestration with microbes as biocatalysts. Journal of the Electrochemical Society 167, 155510 (2020)

  19. Zhao W., Fu W., Chen S., Xiong H., Lan L., Jiang M., Patil S.A. and Chen S. High-capacitance bioanode circumvents bioelectrochemical reaction transition in the voltage-reversed serially-stacked air- cathode microbial fuel cell. Journal of Power Sources 468, 228402 (2020)

  20. Kumar R., Yadav S. and Patil S.A. Bioanode-assisted removal of Hg2+ at the cathode of microbial fuel cells. Journal of Hazardous, Toxic, and Radioactive Waste 24 (4), 04020034 (2020)

  21. Chiranjeevi P., Patil S.A., Microbial fuel cell coupled with microalgae cultivation for wastewater treatment and energy recovery. Integrated Microbial Fuel Cells for Wastewater Treatment, 213-227 (2020)

  22. Moss, C., Patil S.A., and Schröder, U., Scratching the surface – How decisive are microscopic surface structures on growth and performance of electrochemically active bacteria? Frontiers in Energy Research 7 (Article 18), 1-10 (2019)

  23. Kiran R. and *Patil S.A., Microbial electroactive biofilms, In Introduction to Biofilm Engineering, Chapter 8, pp 159-186, ACS Symposium Series, Vol. 1323, Publisher – ACS (2019)

  24. Chiranjeevi P., Bulut M. Breugelmans T., Patil S.A. and Pant, D., Current Trends in Enzymatic Electrosynthesis for CO2 Reduction. Current Opinion in Green and Sustainable Chemistry 16, 65-70 (2019)

  25. Chen S., Brown R.K., Patil S.A., Huber K.J., Overmann J., Schröder U., Aerobic microbial electrochemical technology based on the coexistence and interactions of aerobes and exoelectrogens for synergistic pollutant removal from wastewater, Environmental Science: Water Research and Technology 5, 60-69 (2019)

  26. Rivera I., Schröder U., Patil S.A., Microbial Electrolysis for Biohydrogen Production: Technical Aspects and Scale-Up Experiences, In Microbial Electrochemical Technology: Sustainable Platform for Fuels, Chemicals and Remediation, Pages 871-898, Publisher – Elsevier (2019)

  27. Chen S., Patil S.A., Brown R.K., Schröder U., Strategies for optimizing the power output of microbial fuel cells: Transitioning from fundamental studies to practical implementation, Applied Energy 233, 15-28 (2019)

  28. Mateos R., Escapa A., Vanbroekhoven K., Patil S.A., Moran A., Pant, D., Microbial Electrochemical Technologies for CO2 and Its Derived Products Valorization, In Microbial Electrochemical Technology: Sustainable Platform for Fuels, Chemicals and Remediation, Pages 777-796, Publisher – Elsevier (2019)

  29. Chen S., Patil S.A., Schröder U., Substrate Crossover Effect and Performance Regeneration of the Biofouled Rotating Air-Cathode in Microbial Fuel Cell, Frontiers in Energy Research 6 (Article 85), 1-7 (2018)

  30. Wu, S., Patil, S.A. and Chen S., Auto-feeding microbial fuel cell inspired by transpiration of plants. Applied Energy 225, 934-939 (2018)

  31. Sonawane, J.M., Patil, S.A., Ghosh, P.C. and Adeloju, S.B., Low-cost stainless-steel wool anodes modified with polyaniline and polypyrrole for high-performance microbial fuel cells. Journal of Power Sources, 389, 103-114 (2018)

  32. Chen S., Patil, S.A. and Schröder U., A high-performance rotating graphite fiber brush air-cathode for microbial fuel cells. Applied Energy, 211, 1089-1094 (2018)

  33. Seelam J.S., Maesara S.A., Gunda M., Patil S.A., ter Heijne A., Pant D., Resource recovery from wastes and wastewaters using microbial bioelectrochemical systems. In Waste Biorefinery: Potential and Perspectives, Pages 535-570, Publisher – Elsevier (2018)

  34. Aryal, N., Ammam, F., Patil, S.A. and Pant, D., An overview of cathode materials for microbial electrosynthesis of chemicals from carbon dioxide. Green Chemistry, 19, 5748- 5760 (2017)

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