Ariel University | Israel
Ms. Abhishiktha Chiliveru is a Ph.D. scholar in the Department of Chemical Engineering, Biotechnology, and Materials at Ariel University, Israel, under the supervision of Professor Rivka Cahan. Her current research focuses on advancing sustainable bioenergy by studying nanoparticles-fed Geobacter sulfurreducens biofilms in microbial electrolysis cells (MEC) for enhanced hydrogen production. She previously worked as a Project Associate at CSIR-Indian Institute of Chemical Technology (IICT), Hyderabad, contributing to projects on lipid production from oleaginous yeast, microbial diversity in anaerobic digestion, and high-rate biomethanation of organic wastes for bioenergy generation. Abhishiktha earned her M.Sc. in Microbiology from Jawaharlal Nehru Technological University, Hyderabad, after completing a B.Sc. in Microbiology, Genetics, and Chemistry from Osmania University. Her strong academic foundation is complemented by hands-on expertise in microbial electrochemical systems, anaerobic digestion, microbial isolation, and advanced instrumentation techniques such as confocal microscopy, UV-VIS spectroscopy, and dynamic light scattering. She has actively participated in several international and national conferences, workshops, and symposiums, including the 5th MEEP Symposium in Switzerland. Her research interests span bioremediation, solid waste management, wastewater treatment, and bioenergy recovery, with a focus on applying microbial systems for environmental sustainability. Abhishiktha’s dedication to innovative microbial technologies reflects her commitment to advancing green energy solutions.
Featured Publications
Hirsch, L.O., Gandu, B., Chiliveru, A., Dubrovin, I.A., Rozenfeld, S., Schechter, A., & Cahan, R. (2024). “The performance of a modified anode using a combination of kaolin and graphite nanoparticles in microbial fuel cells.” Microorganisms
Dubrovin, I.A., Hirsch, L.O., Chiliveru, A., Jukanti, A., Rozenfeld, S., Schechter, A., & Cahan, R. (2024). “Microbial electrolysis cells based on a bacterial anode encapsulated with a dialysis bag including graphite particles.” Microorganisms
Hirsch, L.O., Gandu, B., Chiliveru, A., Dubrovin, I.A., Jukanti, A., Schechter, A., & Cahan, R. (2024). “Hydrogen production in microbial electrolysis cells using an alginate hydrogel bioanode encapsulated with a filter bag.” Polymers
Vemparala, G., Chiliveru, A., Begum, S., Al Amri, M.B.F., & Anupoju, G.R. (2025). “Analyzing and optimizing the lipids production potential of the oleaginous yeast Candida neerlandica from synthetic carbon sources and real wastes.” Next Research
Juntupally, S., Begum, S., Chiliveru, A., Arelli, V., & Anupoju, G.R. (2022). “Relative evaluation of FeCl₃ salts and its nanoparticles on methane yield and sulphide inhibition control during biomethanation of distillery spent wash.” Journal of Water Process Engineering
Chiliveru, A., Yadav, M.K., Ebenezer, J., Jukanti, A., Bar Hanun, E., Borenstein, A., Schechter, A., & Cahan, R. (2025). “Current generation in microbial electrolysis cells based on an abiotic anode and planktonic G. sulfurreducens in the presence of suspended reduced graphene oxide and activated ….” Journal of Environmental Chemical Engineering
Bar-Hanun, E., Hanya, E., Chiliveru, A., & Cahan, R. (2025). “The influence of moderate electroporation on E. coli membrane permeability.” Microorganisms