Mr. Haseeb ashraf Muhammad ashraf | Bioelectroanalytical | Editorial Board Member
Research Assistant | University of Gujrat | Pakistan
Mr. Haseeb ashraf Muhammad ashraf is an emerging researcher in the field of bioelectroanalytical chemistry with a strong focus on sustainable electrochemical systems, microbial fuel cell (MFC) technologies, and nanomaterial-driven environmental remediation. His research integrates advanced MXene-based materials, metal oxides, conductive polymers, and catalytic nanostructures to enhance electron transfer efficiency, energy conversion, and pollutant degradation across diverse bioelectrochemical platforms. He has contributed to shaping innovative approaches for CO2 electroreduction, wastewater-fed microbial fuel cells, and nanoparticle-assisted catalytic reactions, advancing green chemistry and renewable energy strategies. His work emphasizes the interplay between material design and bioelectrochemical performance, particularly exploring how engineered anodes and cathodes can improve power generation, wastewater treatment, and environmental sustainability. His publications demonstrate notable expertise in MXene-modified electrodes, polyaniline-supported biocatalysis, gold nanoparticle-based oxygen reduction catalysts, and optimized synthesis of metal sulfide nanoparticles. With growing recognition in the scientific community, his research output reflects consistent scholarly impact, supported by measurable citation performance. His documented citation indices include Scopus and Google Scholar metrics, with cumulative citations, h-index, and i10-index values that highlight the influence and visibility of his contributions. Collectively, his work positions him as a promising researcher advancing next-generation electrochemical and nanomaterial technologies for clean energy and environmental applications.
Profiles : Google Scholar | Orcid
Featured Publications :
Ashraf, H., Tariq, M., Sandhu, Z. A., Tariq, A., Raza, M. A., Ashraf, S., Raza, H., & Al-Sehemi, A. G. (2024). MXenes and CO2: A pioneering journey towards sustainable electrochemical reduction. International Journal of Hydrogen Energy.
Ashraf, H., Mumtaz, M. W., Jamil, H., Muktar, H., Miran, W., Akhtar, M. T., & Wali, F. (2024). A CoFe2O4/Nb2C-MXene-modified anode improved the performance characteristics of a microbial fuel cell. Catalysts.
Mumtaz, M. W., Mukhtar, H., Miran, W., Alessa, A. H., Waleed, A., Sarwar, Z., & Ashraf, H. (2024). Impact of CeO2 modified cathode and PANI modified anode on tannery wastewater-fed microbial fuel cell performance. Saudi Journal of Biological Sciences.
Mumtaz, M. W., Munawar, R., Miran, S., Mukhtar, H., Miran, W., Iqbal, T., Farwa, U., & Ashraf, H. (2024). Polyaniline-modified anode with mixed microbial community improved microbial fuel cell performance. Biomass Conversion and Biorefinery.
Sandhu, Z. A., Farwa, U., Danish, M., Raza, M. A., Ashraf, H., Hamayun, M., Elahi, M., Manzoor, A., Toor, S., & Al-Sehemi, A. G. (2024). Gold nanoparticles as a promising catalyst for efficient oxygen reduction in fuel cells: Perils and prospects. Inorganic Chemistry Communications.