Natish Kumar | Engineering | Young Scientist Award

Published on by Best Paper Awards

Mr. Natish Kumar | Engineering | Young Scientist Award

IIT Jammu - India

Author's Profile

scopus

Orcid

Google Scholar

Summary

Natish Kumar is an emerging researcher in the field of Chemical Engineering with a focus on biomedical diagnostics. Currently pursuing his Ph.D. at the Indian Institute of Technology (IIT) Jammu, he combines expertise in microfluidics, biotechnology, and sensor technologies to address global healthcare challenges. His work bridges engineering and life sciences to develop innovative lab-on-a-chip systems and portable diagnostic devices. With a multidisciplinary background and a strong research track record, Natish is poised to make impactful contributions to point-of-care diagnostics and translational biosensor research.

Educational Background

Natish Kumar is currently pursuing his Ph.D. in Chemical Engineering at IIT Jammu, with research centered on developing a LAMP-based microfluidic platform for point-of-care detection of viral nucleic acids. He holds a Master of Science degree in Biotechnology from Shri Mata Vaishno Devi University (2015–2017), where he worked on genetic diversity analysis and clinical genetics case studies. His undergraduate education was completed at the University of Jammu (2012–2015) with a strong foundation in biological sciences. Natish has also attended specialized training programs in diagnostic cytogenetics, molecular biology, microfluidic fabrication, MATLAB, and bioinformatics, enhancing both his technical and analytical capabilities.

Professional Experience

Before beginning his doctoral studies, Natish worked as a Project Assistant-II at CSIR–Indian Institute of Integrative Medicine (CSIR-IIIM), Jammu, from 2018 to 2020. He was actively involved in national-level research initiatives, including the CSIR-Phytopharmaceutical Mission and projects on aromatic crop value addition in the Bundelkhand region. His work focused on plant tissue culture and molecular diagnostics. During the COVID-19 pandemic, he contributed to the Infectious Diseases Division at CSIR-IIIM, where he played a crucial role in the development of RT-LAMP assays for SARS-CoV-2 detection. These experiences solidified his interest in translational biosciences and diagnostic innovation.

Research Interests

Natish Kumar’s research spans across a diverse set of biomedical and engineering domains. His core interests include the design and integration of microfluidics and lab-on-a-chip systems for real-time biomedical sensing. He is especially focused on point-of-care diagnostics using isothermal nucleic acid amplification techniques like LAMP, integrated with functional hydrogels. He also explores the application of CRISPR-Cas systems (Cas12/Cas13) for rapid molecular detection, and is developing fluorescence, electrochemical, and colorimetric readouts for portable biosensors. Additional interests include organ-on-a-chip technologies, molecular cloning, and the commercialization of biotech innovations through patents and translational research.

Author Metrics

Natish has published over 11 peer-reviewed research articles in prestigious journals such as Biosensors & Bioelectronics, Biomicrofluidics, Molecular Biotechnology, and Analytical Methods. His publications highlight contributions to the development of microfluidic cartridges, nucleic acid detection tools, and biosensing systems. He has also co-authored book chapters published by Springer Nature on biosensors and bioelectronics for personalized healthcare. His patent portfolio includes three Indian patent applications related to microfluidic diagnostic platforms for infectious and cardiovascular diseases. His active presence in the academic community is marked by presentations at top-tier conferences including MicroTAS, ADT-2024, and India Pharma Expo.

Awards and Honors

Natish Kumar has been widely recognized for his innovative contributions to diagnostics and healthcare technology. He won First Prize at the IDAPT Health-Tech Hackathon 2023 at IIT-BHU for developing a microfluidic-based SARS-CoV-2 biosensor. He was honored with the Gandhian Young Technological Innovation (GYTI) Award 2023 for a portable diagnostic platform for infectious diseases. His entrepreneurial acumen was also recognized through the Start-Up Idea of 2025 competition, where he secured the top spot. He is a CSIR-UGC NET (2019) Life Sciences qualifier and received the SERB Travel Grant to present his research internationally at MicroTAS 2024 in Canada. Additionally, he received the Best Paper Poster Award at the International Conference on Electrochemical Science and Technology (IISc Bangalore, 2024), showcasing the depth and impact of his research.

Conclusion

Mr. Natish Kumar is strongly recommended for the Research for Young Scientist Award. His innovative, interdisciplinary research in biomedical diagnostics, combined with a proven record of publications, patents, and awards, marks him as a rising leader in translational biosensor development. With minor enhancements in international collaboration and entrepreneurial execution, he stands to make a global impact in healthcare technology.

Balasubramanian Deepika | Nanotechnology | Best Paper Award

Published on by Best Paper Awards

Dr. Balasubramanian Deepika | Nanotechnology | Best Paper Award

Senior Lecturer at Saveetha Medical Collage and Research Institution, India

Author's Profile

Orcid
Google Scholar

Summary

Dr. Deepika B is an accomplished researcher in the field of Medical Biotechnology, specializing in cancer biology, nanotechnology, and translational medicine. With a strong foundation in molecular techniques, in vivo experimentation, and innovative therapeutic approaches, she brings over three years of rich research experience. Her work is distinguished by its interdisciplinary nature, combining nanomedicine with oncology to develop novel therapeutic solutions.

Educational Details

Dr. Deepika earned her Ph.D. in Medical Biotechnology (2021–2024) from Chettinad Academy of Research and Education, Tamil Nadu, India. Her doctoral research focused on evaluating the anticancer efficacy of nano-nutraceuticals. She also holds an M.Sc. in Medical Biotechnology (2018–2020) from the same institution, with a thesis on nano-kaempferol and its angiogenesis-inhibitory properties. She completed her B.Sc. in Biotechnology (2016–2018) from Valliammal College for Women, affiliated with the University of Madras. Additionally, she completed certified training in Animal Handling and Experimentation from TANUVAS and undertook an internship in Clinical Research at Deepam Hospitals, Chennai.

Professional Experience

Throughout her academic and research career, Dr. Deepika has worked extensively in cell culture, molecular biology, and animal models, including zebrafish embryos and Swiss albino mice. She has performed a wide range of experimental procedures such as DNA/RNA extraction, PCR, tumor induction, cytotoxicity assays, and drug efficacy analysis. Her expertise also includes photochemical characterization and nanomaterial synthesis. She has collaborated on numerous interdisciplinary projects and demonstrated leadership in mentoring and research management.

Research Interests

Her research is focused on cancer biologynanotechnology-based drug deliverywound healing, and biocompatibility studies. Dr. Deepika explores natural bioactive compounds and their nanoformulations for cancer therapy and has contributed to studies involving toxicity profiles, gene expression analysis, and therapeutic applications of nanomaterials in biomedical science.

Author Metrics

Dr. Deepika has authored 24 research publications in Scopus-indexed journals with a cumulative impact factor of 50.59, including several Q1-ranked journals. Her current h-index is 10 with over 210 citations. She is also listed in ORCID: https://orcid.org/0000-0003-4441-7863, highlighting her contributions to high-impact biomedical research.

Awards and Honors

Dr. Deepika holds two granted Indian patents: one on the nanoformulation of Passiflora incarnata leaf extract (Patent No. 437722) and another on titanium dioxide nanoparticles synthesized from potato peel extract (Patent No. 453713). Additionally, she received a copyright registration for her COVID-19 side-effects survey study. Her scientific excellence and contribution to biotechnology have earned her recognition in the academic community.

Publication Top Notes

1. Multiple Radiations and its Effect on Biological Systems – A Review on In Vitro and In Vivo Mechanisms

Authors: D. Balasubramanian, G. Agraharam, A. Girigoswami, K. Girigoswami
Journal: Annals of Medicine, 57(1), Article ID: 2486595
Year: 2025
Highlights: This comprehensive review outlines the biological impacts of multiple radiation exposures, focusing on cellular and systemic responses observed in both in vitro and in vivo models. It discusses oxidative stress, DNA damage, apoptosis, and radioprotective strategies.

2. Dual Mechanism of Amphiroa anceps: Antiangiogenic and Anticancer Effects in Skin Cancer

Authors: G. Janani, A. Girigoswami, B. Deepika, S. Udayakumar, D.J. Mercy, et al.
Journal: Chemistry & Biodiversity
DOI: e202500626
Year: 2025
Highlights: This study demonstrates that Amphiroa anceps exhibits dual functionality by inhibiting angiogenesis and exerting cytotoxic effects on skin cancer cells, offering potential for novel marine-derived anticancer therapies.

3. Inhibitory Effect of Nano-Formulated Extract of Passiflora incarnata on Dalton’s Lymphoma Ascites-Bearing Swiss Albino Mice

Authors: B. Deepika, G. Janani, D. Jessy Mercy, S. Udayakumar, A. Girigoswami, K. Girigoswami
Journal: Pharmaceutics, 17(2), Article 270
Year: 2025
Highlights: This in vivo study confirms the anticancer potential of nano-formulated Passiflora incarnata extract by significantly suppressing tumor growth in DLA-bearing mice, with improved safety and efficacy compared to traditional formulations.
Impact Factor: 4.9 | Q1 Journal

4. Preparation of Titanium Dioxide Nanoparticles from Solanum Tuberosum Peel Extract and its Applications

Authors: A. Girigoswami, B. Deepika, A.K. Pandurangan, K. Girigoswami
Journal: Artificial Cells, Nanomedicine, and Biotechnology, 52(1), pp. 59–68
Year: 2024
Highlights: A green synthesis approach is used to develop titanium dioxide nanoparticles from potato peel extracts, showcasing effective antibacterial, antioxidant, and photocatalytic properties.
Impact Factor: 5.8 | Q1 Journal

5. Peony-Shaped Zinc Oxide Nanoflower Synthesized via Hydrothermal Route Exhibits Promising Anticancer and Anti-Amyloid Activity

Authors: A. Girigoswami, B. Deepika, S. Udayakumar, G. Janani, D.J. Mercy, K. Girigoswami
Journal: BMC Pharmacology and Toxicology, 25(1), Article 101
Year: 2024
Highlights: This work introduces a novel zinc oxide nanoflower morphology synthesized via a hydrothermal method, exhibiting high efficiency in inhibiting both cancer cell proliferation and amyloid aggregation.
Impact Factor: Q2 Journal

Conclusion

Dr. Balasubramanian Deepika presents a strong and competitive case for the Best Paper Award. Her cutting-edge contributions to nanomedicine and cancer biology, combined with solid publication metrics and patents, showcase her as a young scientist with the potential to drive significant future advancements. Minor improvements in international visibility and translational depth could place her research on a global innovation map.

Tanvibahen Mahendrakumar Nayak | Nano- Science | Best Researcher Award

Published on by Best Paper Awards

Dr. Tanvibahen Mahendrakumar Nayak, Nano- Science, Best Researcher Award

Doctorate at M.B.Patel Science College Anand, India

Summary:

Dr. Tanvibahen Mahendrakumar Nayak is a dedicated researcher and educator with a strong background in Chemistry. She has contributed significantly to the fields of environmental remediation, nanomaterial synthesis, and the development of novel detection methods for pollutants. Dr. Nayak holds a Doctor of Philosophy in Chemistry from HNGU, Patan, and has authored several research papers in reputable journals. With her expertise and passion for science, she continues to make valuable contributions to both academia and research, aiming to address critical environmental challenges and promote sustainable solutions.

Professional Profile:

Scopus Profile

Google Scholar Profile

👩‍🎓Education & Qualification:

Professional experience:  

Dr. Tanvibahen Mahendrakumar Nayak is a seasoned educator with over 7 years and 9 months of teaching experience in the field of Chemistry. Throughout her career, Dr. Nayak has demonstrated a deep commitment to fostering learning and academic excellence among her students. She has held various teaching and leadership positions at esteemed educational institutions, including roles as Assistant Professor, Head of Department, and In-Charge Principal. Notably, Dr. Nayak’s contributions to education have been recognized with awards such as the Best Teacher of the Year award by BETS Science College, Rasana Mota, in 2018. Her expertise in Chemistry, coupled with her excellent communication skills and friendly demeanor, has enabled her to effectively engage with students, parents, and administrators alike. Dr. Nayak’s dedication to advancing scientific education and her proven track record of achievements make her a valuable asset to any educational institution.

Research Interest:

Dr. Tanvibahen Mahendrakumar Nayak’s research interests lie at the intersection of Chemistry and education. With a profound background in Chemistry and extensive experience in teaching, Dr. Nayak is keen on exploring innovative pedagogical approaches to enhance science education at both the undergraduate and postgraduate levels. She is particularly interested in developing strategies to make complex chemical concepts more accessible and engaging for students, fostering a deeper understanding and appreciation of the subject. Additionally, Dr. Nayak is interested in educational research aimed at improving student learning outcomes, retention rates, and overall academic success in the field of Chemistry. Her passion for education, coupled with her expertise in Chemistry, positions her well to contribute meaningfully to research endeavors aimed at advancing science education practices and methodologies.

Publication Top Noted:

Title: Environmental remediation and application of carbon-based nanomaterials in the treatment of heavy metal-contaminated water: A review

  • Authors: T Nayak, A Pathan
  • Journal: Materials Today: Proceedings
  • Year: 2023
  • Citation Count: 4

Title: An Optimize Formulation to Synthesis of size Controlled Hydrophobic Starch Acetate Nanoparticles using Box-Behnken Design

  • Authors: G Rami, T Nayak, JJ Vora
  • Journal: Journal of Polymer & Composites
  • Volume: 10
  • Issue: 1
  • Pages: 32-54p
  • Year: 2022
  • Citation Count: 1

Title: A Novel Green Synthesized Carbon Dots for the Detection of Organophosphate Pesticides in Fruits and Vegetables

  • Authors: T Nayak, N Simon, AK Yadav, NI Gour, S Debnath, M Purushotham, …
  • Journal: Advances in Science and Technology
  • Volume: 117
  • Pages: 35-41
  • Year: 2022

Title: A Green Synthesized SnO2 Photo-Catalyst for Effective Degradation of Biomedical Industrial Waste

  • Authors: T Nayak, N Simon, J Alsadi, RM Hernandez, CK Dixit, V Malik
  • Journal: Key Engineering Materials
  • Volume: 928
  • Pages: 27-32
  • Year: 2022

Title: TiO2-Cu2O Based Nanocomposites for Photocatalytic Degradation of Dye Pollutants from Aqueous Industrial Waste Solutions

  • Authors: T Nayak, K Kulathuraan, K Pakiyaraj, E Potrich, LS Amaral, CK Dixit, …
  • Journal: Key Engineering Materials
  • Volume: 928
  • Pages: 53-58
  • Year: 2022