Best Researcher Award
Rajendraprasad M
Sri Sivasubramaniya Nadar College of Engineering, India
RAJENDRAPRASAD M is a researcher associated with Sri Sivasubramaniya Nadar College of Engineering whose scholarly activities focus on adsorption science, environmental remediation, biomass-derived materials, polymer synthesis, and sustainable resource recovery. His academic profile reflects interdisciplinary contributions that connect waste valorization, advanced carbon materials, photocatalysis, and polymer engineering for environmental applications.[1]
Abstract
This article summarizes the academic profile and research achievements of RAJENDRAPRASAD M in the fields of adsorption, environmental engineering, polymer science, and sustainable materials. His research explores practical solutions for wastewater treatment, resource recovery, and advanced functional materials through experimental and computational approaches. The body of work demonstrates continuing engagement with environmentally responsible technologies and circular economy concepts.[1]
Keywords
Adsorption, Biomass Conversion, Carbon Materials, Wastewater Treatment, Polymer Synthesis, Photocatalysis, Resource Recovery, Environmental Engineering, Circular Economy, Sustainable Materials.
Introduction
Modern environmental research increasingly emphasizes sustainable technologies capable of addressing pollution, waste management, and energy challenges simultaneously. Within this context, RAJENDRAPRASAD M has contributed to studies involving adsorption processes, advanced carbon materials, and polymer-based systems. His work reflects a commitment to transforming waste-derived resources into functional materials with environmental and industrial relevance.[2]
Research Profile
The research profile of RAJENDRAPRASAD M encompasses adsorption science, photocatalysis, polymer chemistry, biomass waste utilization, and computational modeling. His ORCID record highlights interests in carbon materials, energy conversion, waste valorization, and wastewater treatment technologies. These areas collectively support the development of sustainable engineering solutions with measurable environmental benefits.[1]
Research Contributions
His contributions include investigations into activated carbons for dye removal, photocatalytic degradation mechanisms, polymer recovery from waste plastics, and advanced adsorption modeling. Several studies focus on converting waste streams into value-added products suitable for environmental remediation and energy-related applications. Such work aligns with current global priorities related to sustainability, circular economy practices, and resource efficiency.[2][3]
Publications
The publication record includes articles in journals such as International Journal of Environmental Research, Korean Journal of Chemical Engineering, European Polymer Journal, Reactive and Functional Polymers, and Chemical Engineering Science. These publications address adsorption performance, photocatalytic degradation, thermocatalytic depolymerization, polymer recovery, and uncertainty-driven breakthrough simulation. The diversity of topics illustrates interdisciplinary engagement across environmental and materials research domains.[2][4]
Research Impact
The research portfolio demonstrates practical relevance through applications in wastewater treatment, pollutant removal, polymer recycling, and advanced material synthesis. By integrating experimental studies with computational methodologies, the work contributes to scientific understanding and technological development. The documented citation record and international journal publications indicate growing scholarly visibility within the research community.[5]
Award Suitability
The candidate’s research activities demonstrate sustained engagement with environmentally significant scientific challenges. Contributions spanning adsorption science, waste resource recovery, polymer engineering, and photocatalytic systems align closely with the objectives of international scientific recognition programs. The combination of interdisciplinary scholarship and publication output provides a reasonable basis for consideration within the International Research Scientist Awards framework.[1]
Conclusion
RAJENDRAPRASAD M has developed a research profile centered on sustainable materials, adsorption technologies, and resource recovery approaches. His publications demonstrate engagement with contemporary environmental and materials science challenges. Continued scholarly activity in these areas is expected to support further advancements in sustainable engineering and applied scientific research.
External Links
References
- ORCID. (2026). Mr. Rajendraprasad (ORCID: 0000-0003-2368-070X).
https://orcid.org/0000-0003-2368-070X
- Munireddy, R., Rahul Prasath, L., & Murugesan, A. (2026). Arachis Hypogaea Shells Derived Mesopores and Ultra-Micropores Carbons via Thermal Methods for Dyes Removal: Evaluation of ANN Modelling. International Journal of Environmental Research.
https://doi.org/10.1007/s41742-025-01026-9
- Rajendraprasad, M., Murugesan, L., Arukkani, M., Kumar, S., & Gayathri, R. (2024). Studies on Effective Photo-catalytic Degradation of Rhodamine-B Using Metal-Doped Oxidized-Activated Carbon. Korean Journal of Chemical Engineering.
https://doi.org/10.1007/s11814-024-00145-x
- Loganathan, M., Rajendraprasad, M., Murugesan, A., Lee, J. Y., & Manjappa, K. B. (2024). Sustainable Recovery of Monomers from PET and PC Waste via Thermocatalytic Depolymerization for Synthesis of Polycarbonates and Co-Polycarbonates. European Polymer Journal.
https://doi.org/10.1016/j.eurpolymj.2024.113516
- Loganathan, M., Rajendraprasad, M., Murugesan, A., & Arun, T. (2024). Recovery of Bis(2-hydroxyethyl) Terephthalate and Terephthalic Acid from Waste PET Bottles for Synthesis of Cerium-Based Metal-Organic Frameworks: A Study Towards Supercapacitor Applications. Reactive and Functional Polymers.
https://doi.org/10.1016/j.reactfunctpolym.2024.106101