M.R.Rajan | Nanotechnology | Best Researcher Award

Published on by Chemical Scientist

Prof. Dr. M.R. Rajan | Nanotechnology | Best Researcher Award

Senior Professor | The Gandhigram Rural Institute- Deemed to be University | India

Dr. M. R. Rajan is a senior biologist whose four decades of academic service have significantly advanced environmental biotechnology, aquatic toxicology, nanomaterial-based interventions, and microbial ecology. As Senior Professor in the Department of Biology at the Gandhigram Rural Institute (Deemed to be University), Tamil Nadu, he has established a robust research portfolio addressing pollutant dynamics, eco-toxicological risks, sustainable aquaculture practices, and innovative bioremediation technologies. His early investigations on tannery effluents, sewage-supported fish culture, and organic–inorganic soil amendments contributed practical solutions for rural environmental management, while his recent work focuses on nanoparticle–organism interactions, green synthesis of metal and carbon-based nanomaterials, and the functional role of intestinal microbiota in enhancing fish growth and health. Dr. Rajan has authored numerous book chapters published by CRC Press, BP International, Agrobios, Science Publications, and other reputed outlets, highlighting themes such as wastewater purification, phytoremediation, antibacterial nanomaterials, and conservation biology. His extensive journal contributions many indexed in Scopus span topics including carbon quantum dots, silver and copper oxide nanoparticles, probiotic bacterial isolation, biomedical potential of graphene-based nanostructures, and sustainable valorisation of biological waste. His studies integrate biochemical, haematological, enzymatic, and ecotoxicological assessments, providing scientifically grounded insights for improving aquaculture safety, environmental restoration, and resource circularity. Through interdisciplinary collaborations and mentorship, he has strengthened research capacity in biological sciences and contributed to solutions addressing pollution, environmental health, and rural sustainability. His work continues to bridge laboratory innovation with societal needs, reinforcing his standing as a respected scholar and contributor to globally relevant biological research. His academic influence is reflected in 225 citations, 44 documents, and an h-index of 9, underscoring his meaningful contributions to contemporary biological science.

Profiles: Scopus | ORCID | LinkedIn

1. Muthuswami Ruby Rajan, & Chinnadurai Kaleeswaran. (2024). Evaluation of disparate multiplicities of copper oxide nanoparticles integrated feed on the growth and hematology of koi carp. Journal of Toxicological Studies.

2. Muthuswami Ruby Rajan, Rekha, M., & Dayana Senthamarai, M. (2024). Incorporation of Nano Selenium in fish diet and assessment of growth performance and biochemical criteria of Labeo rohita. Journal of Environmental Nanotechnology.

3. Muthuswami Ruby Rajan, & Dayana Senthamarai, M. (2023). Comparative study of green and chemical-synthesized selenium nanoparticles and its antibacterial assay against fish pathogens. Journal of Nanoscience and Technology.

4. Muthuswami Ruby Rajan, & Baluchamy Meenakumari. (2023). Impact of differential quantities of magnesium oxide nanoparticles on growth, haematological and biochemical characteristics of common carp Cyprinus carpio. International Journal of Creative Research Thoughts.

5. Rajan, M. R., & Brindha, G. (2022). Evaluation of dissimilar intestinal bacteria incorporated feeds on growth of ornamental fish Swordtail (Xiphophorus helleri). Letters in Applied Microbiology, 75(1).

Devesh Barshilia | Nanotechnology | Best Researcher Award

Published on by Chemical Scientist

Dr. Devesh Barshilia | Nanotechnology | Best Researcher Award

Assistant Researcher | National Chung Cheng University | Taiwan

Dr. Devesh Barshilia is an emerging multidisciplinary scientist whose research spans biosensors, nanophotonics, optofluidic platforms, semiconductor optoelectronics, and integrated photonic sensing systems, positioned at the intersection of materials science, photonics, and biomedical engineering to develop high-performance, low-cost, and ultra-sensitive detection technologies for healthcare, environmental monitoring, and analytical diagnostics. A major focus of his work is the design and optimization of planar waveguide–based optofluidic sensors for rapid, real-time, and label-free refractive index detection, with his highly cited publication on waveguide sensors highlighting his strong impact in optical detection research. He has also made notable advances in particle plasmon resonance integrated biosensing by synergizing plasmonic field enhancement with guided-wave optics to achieve superior biochemical sensitivity, while his contributions to guided-mode resonance (GMR) biosensing demonstrate his ability to engineer compact, precise, and clinically relevant optical devices. His work on nanogold-linked immunosorbent assays is especially impactful, enabling improved early detection of sepsis-associated biomarkers such as procalcitonin for point-of-care diagnostics. Parallel to his biosensing developments, Dr. Barshilia has produced influential research in semiconductor photonic devices including GeSn-based short-wave infrared phototransistors, graphene-based flexible photodetectors, and engineered silicon-dioxide nanostructures, with publications in leading journals such as Optics Express, Optics Letters, Advanced Optical Materials, and Nano Letters. By integrating waveguide-enhanced spectroscopy, nanoplasmonics, and advanced biosensing microarchitectures, he is advancing miniaturized diagnostic tools for DNA, protein, and biomarker detection. With 183 citations, an h-index of 6, and a steadily expanding publication record, Dr. Barshilia is establishing himself as a rising contributor to next-generation biosensing and integrated photonic diagnostics.

Profiles: ORCID | Google Scholar | LinkedIn | ResearchGate

Featured Publications

Barshilia, D., Huang, J.-J., Komaram, A. C., Chen, Y.-C., Chen, C.-D., Syu, M.-Y., Chao, W.-C., Chau, L.-K., & Chang, G.-E. (2024). Ultrasensitive and rapid detection of procalcitonin using waveguide nanogold-linked immunosorbent assay for early sepsis diagnosis.

Barshilia, D., Komaram, A. C., Chen, P.-C., Chau, L.-K., & Chang, G.-E. (2022). Slab waveguide-based particle plasmon resonance optofluidic biosensor for rapid and label-free detection. Analyst, 147(20), 4417–4425.

Barshilia, D., Chau, L.-K., & Chang, G.-E. (2020). Low-cost planar waveguide-based optofluidic sensor for real-time refractive index sensing. Optics Express, 28(19), 27337–27345.

Barshilia, D., Komaram, A. C., Chau, L.-K., & Chang, G.-E. (2024). Waveguide-enhanced nanoplasmonic biosensor for ultrasensitive and rapid DNA detection. Micromachines, 15(9), 1169.

Yeh, C.-T., Barshilia, D., Hsieh, C.-J., Li, H.-Y., Hsieh, W.-H., & Chang, G.-E. (2021). Rapid and highly sensitive detection of C-reactive protein using a robust self-compensated guided-mode resonance biosensing system for point-of-care applications. Biosensors, 11(12), 523.

Dr. Devesh Barshilia’s innovative work in biosensors, optofluidics, and nanophotonic detection systems is advancing the future of rapid, ultra-sensitive medical diagnostics and smart analytical technologies. His breakthroughs in waveguide-enhanced and plasmonic sensing platforms contribute directly to early disease detection, next-generation point-of-care solutions, and high-impact industrial applications. Through pioneering research that bridges photonics, biotechnology, and semiconductor engineering, he is shaping globally relevant innovations that strengthen healthcare, scientific progress, and technological advancement.