Post Doc | university Malaya | Malaysia
Dr. Arash Javanmard is deeply engaged in a broad spectrum of research activities spanning advanced materials, biomass conversion, energy storage systems, and sustainable process engineering, contributing significantly through hands-on project involvement, scientific investigations, and collaborative research. His work includes extensive experience in synthesizing organic–inorganic nanostructures, developing porous carbon materials for hydrogen storage, and engineering doped carbon nanomaterials for photocatalytic and electrochemical applications. He has played key roles in major projects such as continuous torrefaction of biomass, biochar production optimization, and catalyst-assisted bioenergy generation, where he has explored feedstock behavior, process enhancement, environmental implications, and material characterization. His ongoing research delves into biomass pretreatment, biochar-based catalysts, microbial fuel cells, and fluid dynamics in advanced reactors, supported by multiple publications addressing process efficiency, sustainability, and material performance. He also contributes to international collaborations on advanced supercapacitors, focusing on synthesizing CuO-ZnO/3DNPrGO composites, electrode fabrication, and electrochemical characterization to enhance energy storage technologies. As a reviewer, project supervisor, and research assistant, he has gained strong experience in mentoring, analytical evaluation, experimental design, and multidisciplinary teamwork. His research interests encompass biomass conversion pathways, torrefaction mechanisms, biochar applications in soil, water, and energy systems, electrochemical double-layer materials, PEM fuel cells, metallurgical processes, and nanostructured carbon materials. He has worked on topics such as environmental risk assessment, heavy-metal remediation, sustainable development, and bioremediation using microbial systems. His scientific contributions reflect a commitment to advancing green technologies, improving renewable energy systems, and developing functional materials through experimental innovation, process optimization, and interdisciplinary problem-solving. Through continuous involvement in diverse research streams and projects, he remains dedicated to expanding the knowledge base in sustainable materials, clean energy, catalytic systems, and environmental engineering.
Publications:
Arash Javanmard, W. M. A. W. D., Abdul Patah, M. F., & Zulhelmi, A. (2023). A comprehensive overview of the continuous torrefaction method: Operational characteristics, applications, and challenges. Journal of the Energy Institute.
Ghotbi, M. Y., Javanmard, A., & Soleimani, H. (2021). Layered nanoreactor assisted to produce B-doped and P-doped 3D carbon nanostructures for supercapacitor electrodes. Journal of Energy Storage, 44, 103514.
Javanmard, A., Daud, W. M. A. W., Patah, M. F. A., Zuki, F. M., Ai, S. P., Azman, D. Q., et al. (2024). Breaking barriers for a green future: A comprehensive study on pre-treatment techniques for empty fruit bunches in the bio-based economy. Process Safety and Environmental Protection, 182, 535–558.
Arash Javanmard, A. S. V., Wan Daud, W. M. A. B., Abdul Patah, M. F., et al. (2024). Harnessing the potential of biochar-based catalysts for sustainable adsorptive and photocatalytic applications: A comprehensive review. Process Safety and Environmental Protection.
Arash Javanmard, W. M. A. W. D., & Abdul Patah, M. F. (2023). The good, the bad, the advantage of washing pretreatment in reducing slagging and fouling index during the torrefaction process. Process Safety and Environmental Protection.