BLESSYMOL B | Nanotechnology | Best Researcher Award

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Ms. BLESSYMOL B | Nanotechnology | Best Researcher Award

Ms. BLESSYMOL B, NAVARASAM ARTS AND SCIENCE COLLEGE FOR WOMEN, ARACHALUR, ERODE, India

Blessymol B. is a dedicated physicist specializing in nanotechnology, with a strong academic and research background. She is currently pursuing her Ph.D. in Physics at Navarasam Arts and Science College for Women, Erode, with her research focusing on the synthesis and characterization of nanomaterials. With an M.Phil. in Physics from Avinashilingam Institute and an M.Sc. in Physics, she has demonstrated academic excellence, securing the fourth rank at the university level. Blessymol has published multiple research papers in reputed journals, highlighting her contributions to nanotechnology, especially in the development of environmentally friendly and functional nanomaterials. Apart from her research, she has a keen interest in teaching and has been serving as an Assistant Professor in Physics since 2021. Her achievements include awards for best research presentations and active participation in international conferences. She is proficient in multiple languages and aims to advance her expertise in nanomaterials for biomedical and environmental applications.

Professional Profile

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Suitability for the Research for Best Researcher Award – Blessymol B.

Blessymol B. demonstrates strong potential as a candidate for the Research for Best Researcher Award, given her notable academic achievements, extensive research contributions, and active engagement in scientific advancements. She is currently pursuing a Ph.D. in Physics, having submitted her synopsis, and holds an M.Phil. and M.Sc. in Physics, securing a university fourth rank in her postgraduate studies. Her academic journey showcases a consistent track record of excellence, which is an essential criterion for this award.

Her research focus is in nanotechnology, materials science, and their applications, as evidenced by her 11 research publications in reputable journals such as Results in Chemistry, Frontiers in Advanced Materials Research, and the Journal of Environmental Nanotechnology. These papers cover various advanced topics, including nanoparticle synthesis, photocatalysis, antimicrobial activity, and biomedical applications, highlighting her ability to contribute meaningfully to the field of physics and materials science. Additionally, her Google Scholar h-index of 2 and ResearchGate h-index of 3 indicate that her work is gaining academic recognition.

🎓 Education

Blessymol B. has a robust academic background in physics, with a keen focus on nanotechnology and material sciences. She is currently pursuing her Ph.D. in Physics at Navarasam Arts and Science College for Women, Erode, having submitted her synopsis in 2021. She completed her M.Phil. in Physics at Avinashilingam Institute for Home Science and Higher Education for Women, Coimbatore, with an impressive 81% score in 2019. Her M.Sc. in Physics was also from Navarasam Arts and Science College, where she secured 89.4%, earning the university’s fourth rank in 2018. Her undergraduate studies in Physics at the same institution saw her graduate with an 85.5% score in 2016. Her foundational education was completed at St. Thomas Higher Secondary School and St. Johns Higher Secondary School. Additionally, she has undertaken specialized certificate courses in personality development, communication skills, and household appliances, enhancing her multidisciplinary knowledge.

💼 Professional Experience

Blessymol B. has a strong academic and professional background in physics and nanotechnology. She began her career as a Higher Secondary Physics Teacher at Nicholson Syrian Girls Higher Secondary School, Kattode, Thiruvalla, where she worked for seven months. Currently, she serves as an Assistant Professor in Physics at Navarasam Arts and Science College for Women, Arachalur, Erode, a position she has held since 2021. In this role, she engages in both teaching and research, mentoring students in advanced physics concepts while contributing to nanotechnology research. She has actively participated in organizing faculty development programs and international conferences. Her responsibilities also include guiding undergraduate and postgraduate research projects, delivering lectures on advanced topics in nanomaterials, and coordinating departmental activities. Her experience in both academia and research enables her to bridge the gap between theoretical physics and practical applications, making significant contributions to the field of nanotechnology.

🏅 Awards and Recognition

Blessymol B. has received numerous accolades for her outstanding contributions to physics and nanotechnology. She won the Best Paper Award for her research presentation on “Green Synthesized TiO2 via Medicinal Plants for Photocatalytic Applications” at the 3rd International Conference on Light Applications in Science & Engineering (LASER-2023). She has also been a Co-Coordinator for an AICTE Training and Learning (ATAL) sponsored faculty development program on nanotechnology applications in medicine and radiation treatment. Blessymol has actively participated in several prestigious international conferences, presenting posters on nanomaterials and their applications. Her research has been recognized in leading journals, earning her a Research Interest Score of 13.6 and an h-index of 3. Additionally, she has played a pivotal role in mentoring students in physics and nanotechnology, further solidifying her status as a key contributor in her field. Her achievements underscore her commitment to advancing research and education in nanotechnology.

🌍 Research Skills On Nanotechnology

Blessymol B. possesses advanced research skills in nanotechnology, specializing in the synthesis and characterization of nanomaterials. Her expertise includes green synthesis methods, solvothermal synthesis, and microwave-assisted synthesis of nanoparticles, particularly TiO2, ZnO, and ferric oxide nanoparticles. She is adept at analyzing the structural, optical, and antimicrobial properties of nanomaterials, leveraging spectroscopic and microscopic techniques. Her research extends to exploring the biomedical and environmental applications of nanomaterials, with a focus on photocatalytic activity, antioxidant properties, and cytotoxic effects. She has contributed to multiple high-impact publications, demonstrating her ability to conduct innovative and interdisciplinary research. Her technical proficiency is complemented by her experience in academic writing, research mentoring, and scientific communication. Additionally, she has been actively involved in international conferences and faculty development programs, further enhancing her research capabilities and professional network in the field of nanotechnology.

📖 Publication Top Notes

  • An antioxidant study of Titanium dioxide (TiO₂) nanoparticles against mace of nutmeg in Myristica fragrans Houtt, rhizomes of Curcuma longa Linn, and Kaempferia galanga extracts
    • Authors: B. Blessymol, P. Yasotha, V. Kalaiselvi, S. Gopi
    • Journal: Results in Chemistry
    • Volume: 7
    • Article Number: 101291
    • Year: 2024
    • Citations: 10
  • Comparative study of chemically and green synthesized Titanium dioxide nanoparticles using Leucas aspera leaf extract
    • Authors: B. Blessymol, V. Kalaiselvi, P. Yasotha, S. Gopi
    • Journal: Journal of Environmental Nanotechnology
    • Volume: 12
    • Issue: 3
    • Pages: 10–13
    • Year: 2023
    • Citations: 3
  • Microwave Synthesis of Triethanolamine-doped Zinc Oxide Nanoparticles
    • Authors: J. Nancy, V. Kalaiselvi, B. Blessymol, P. Yasotha, M. Vishalatchi
    • Journal: Journal of Environmental Nanotechnology
    • Volume: 11
    • Issue: 2
    • Pages: 22–27
    • Year: 2022
    • Citations: 2
  • Eco-friendly synthesis of ferric oxide nanoparticles-antimicrobial activity
    • Authors: M. Vishalatchi, V. Kalaiselvi, P. Yasotha, B. Blessymol
    • Journal: Journal of Environmental Nanotechnology
    • Volume: 11
    • Issue: 3
    • Pages: 28–34
    • Year: 2022
    • Citations: 1
  • Synthesis and exploring the structural formation, different spectroscopic profiles, physicochemical and biological investigations of hydroxyapatite doped titanium nanocomposite
    • Authors: P. Yasotha, V. Kalaiselvi, B. Blessymol, C. Vidya, S. Tamilarasu
    • Journal: Journal of the Indian Chemical Society
    • Article Number: 101603
    • Year: 2025
  • Effect of Ethanolamine and HCl on structural and optical properties of Nickel oxide thin films
    • Authors: B. Blessymol, P. Yasotha, V. Kalaiselvi, S. Gopi
    • Journal: Frontiers in Advanced Materials Research
    • Volume: 4
    • Issue: 1
    • Pages: 1–10
    • Year: 2022
  • Effect of Ethanolamine and HCl on structural and optical properties of Nickel oxide thin films
    • Authors: B. Blessymol, P. Yasotha, V. Kalaiselvi, S. Gopi
    • Journal: Spin
    • Volume: 4
    • Issue: 1
    • Year: 2022
  • Psidium Guajava Leaf Extract Substituted Zinc Oxide Nanoparticles and Their Photocatalytic Activity
    • Authors: D.V. Kalaiselvi, D.S. Gopi, P. Yasotha, P. Sindhuja
    • Journal: Results in Chemistry
    • Year: 2025

RAJNI VERMA | NANOMATERIALS | Best Researcher Award

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Dr. RAJNI VERMA | NANOMATERIALS | Best Researcher Award

 👤 Dr. RAJNI VERMA, SEOUL NATIONAL UNIVERSITY, South Korea

Dr. Rajni Verma is a Postdoctoral Fellow at Seoul National University, Republic of Korea. With extensive expertise in oxide nanomaterials and surface-engineered nanoparticles, she has significantly contributed to the fields of materials science and bioimaging. Her research focuses on green synthesis, fluorescence, and non-invasive in-vitro bioimaging. Dr. Verma has published 28 peer-reviewed articles in prestigious journals like Chemical Society Reviews and ACS Applied Materials & Interfaces. With a high citation count and an h-index of 18, her work has gained significant recognition in the scientific community. Her innovative research includes the development of biocompatible nanoparticles and their application in cellular imaging, where she utilized advanced microscopy techniques and spectroscopy to analyze nanoparticle behaviors within mammalian cells. Dr. Verma’s multidisciplinary approach combines materials science, chemistry, and biomedical engineering to create breakthrough solutions in bioimaging and nanomaterials.

Professional Profile

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🌟 Suitability For Best Researcher Award

Dr. Rajni Verma is an exceptionally qualified candidate for the “Research for Best Researcher Award” due to her outstanding contributions to the field of materials science, particularly in the synthesis, characterization, and application of oxide nanomaterials. Her expertise in developing biocompatible and biodegradable nanoparticles, such as ZnO, TiO2, and Fe3O4, sets her apart in the field of nanomaterials. She has demonstrated remarkable skill in using advanced techniques such as Confocal Microscopy, UV Spectroscopy, and Transmission Electron Microscopy for the characterization of these nanomaterials, enhancing the scientific understanding of their properties and potential applications in biomedical fields.

Dr. Verma’s work is particularly notable for its innovative approach to green synthesis methods, which ensure environmentally friendly fabrication of nanoparticles. Her research on the non-invasive imaging of autofluorescent nanoparticles for cell culturing and in-vitro bioimaging has provided valuable insights into the interaction mechanisms between nanoparticles and human cells.

🎓 Education 

Dr. Rajni Verma holds a Ph.D. in Chemical Sciences from CSIR-National Physical Laboratory, New Delhi, India, where she specialized in oxide nanomaterials and their optical and biological responses. Her doctoral research focused on scalable synthesis methods for nanoparticles, with applications in various biomedical fields. Prior to her Ph.D., Dr. Verma completed her M.Sc. in Chemistry with a specialization in Physical Chemistry from the University of Delhi, New Delhi, India. Her foundational knowledge in chemistry laid the groundwork for her later research in nanomaterials. She also earned a Bachelor’s degree in Chemistry from the University of Delhi, where she demonstrated an excellent understanding of fundamental chemistry concepts. Dr. Verma’s solid academic foundation, complemented by extensive research experience, continues to fuel her groundbreaking work in the field of nanomaterials and their applications in bioengineering and environmental sustainability.

💼 Professional Experience 

Dr. Rajni Verma’s professional journey spans over a decade, during which she has honed her skills in nanomaterial synthesis, characterization, and bioimaging. Currently, as a Postdoctoral Fellow at Seoul National University, she works on innovative methods for the synthesis of biocompatible nanoparticles and explores their applications in fluorescence microscopy and non-invasive bioimaging. Previously, Dr. Verma worked as a McKenzie Fellow at the University of Melbourne, where she received funding for her research on fluorescent metal oxide nanoparticles for biomedical applications. Her experience also includes positions as a Project Scientist at the Indian Institute of Technology, Delhi, and as a Guest Faculty at the University of Delhi. Dr. Verma’s career highlights include her extensive research on the development of eco-friendly nanoparticle synthesis methods and their application in biomedical imaging. Her work in various global institutions continues to advance nanotechnology and materials science.

🏅 Awards and Recognition

Dr. Rajni Verma has received numerous accolades for her pioneering work in nanomaterials and bioimaging. Notably, she was awarded the McKenzie Fellowship, a prestigious research funding opportunity at the University of Melbourne. Her contributions to the scientific community have been recognized through several peer-reviewed publications in top-tier journals, such as Chemical Society Reviews and ACS Applied Materials & Interfaces. Dr. Verma’s research impact is reflected in her high citation count and an h-index of 18, underscoring the significance of her work in the field of materials science. She has also been invited to present her research at various international conferences, demonstrating her leadership in the field. Moreover, Dr. Verma’s innovative research methodologies, particularly in the synthesis of nanomaterials and their application in cellular imaging, have earned her recognition from both academic and industrial circles. Her continued contributions are paving the way for advancements in nanotechnology and biomedical applications.

🌍 Research Skills On NANOMATERIALS 

Dr. Rajni Verma possesses an extensive skill set in nanomaterials synthesis, characterization, and bioimaging. She is adept in both chemical and green synthesis methods for nanoparticles, specifically ZnO, TiO2, and Fe3O4, employing techniques such as co-precipitation and sol-gel methods. Her expertise includes advanced characterization techniques like Confocal Microscopy, Wide-field Microscopy, UV spectroscopy, and Transmission Electron Microscopy (TEM). Dr. Verma’s proficiency extends to optical and fluorescence spectroscopy, where she investigates the structural, optical, and biological responses of nanoparticles. In the biomedical field, her research focuses on non-invasive optical tracking of fluorescent nanoparticles in mammalian cell cultures, including cancerous and non-cancerous cell lines. Additionally, Dr. Verma has demonstrated expertise in performing MTS assays for cell viability testing, contributing to her understanding of the biological interactions of nanomaterials. Her research aims to bridge the gap between materials science and biomedical applications, showcasing her interdisciplinary approach and technical prowess.

📖 Publication Top Notes

  • Multiphase TiO₂ nanostructures: A review of efficient synthesis, growth mechanism, probing capabilities, and applications in bio-safety and health
    Author(s): R Verma, J Gangwar, AK Srivastava
    Citation: RSC Advances 7 (70), 44199-44224
    Year: 2017
  • ZnO nanomaterials: Green synthesis, toxicity evaluation, and new insights in biomedical applications
    Author(s): R Verma, S Pathak, AK Srivastava, S Prawer, S Tomljenovic-Hanic
    Citation: Journal of Alloys and Compounds 876, 160175
    Year: 2021
  • Interface chemistry of two-dimensional heterostructures–fundamentals to applications
    Author(s): S Gbadamasi, M Mohiuddin, V Krishnamurthi, R Verma, MW Khan, …
    Citation: Chemical Society Reviews 50 (7), 4684-4729
    Year: 2021
  • Photocatalytic degradation of polypropylene film using TiO₂-based nanomaterials under solar irradiation
    Author(s): R Verma, S Singh, MK Dalai, M Saravanan, VV Agrawal, AK Srivastava
    Citation: Materials & Design 133, 10-18
    Year: 2017
  • Graphene quantum dot-sensitized ZnO-nanorod/GaN-nanotower heterostructure-based high-performance UV photodetectors
    Author(s): L Goswami, N Aggarwal, R Verma, S Bishnoi, S Husale, R Pandey, …
    Citation: ACS Applied Materials & Interfaces 12 (41), 47038-47047
    Year: 2020
  • GaN nanotowers grown on Si (111) and functionalized with Au nanoparticles and ZnO nanorods for highly responsive UV photodetectors
    Author(s): L Goswami, N Aggarwal, M Singh, R Verma, P Vashishtha, SK Jain, …
    Citation: ACS Applied Nano Materials 3 (8), 8104-8116
    Year: 2020
  • Spin dynamics investigations of multifunctional ambient scalable Fe₃O₄ surface decorated ZnO magnetic nanocomposite using FMR
    Author(s): S Pathak, R Verma, S Singhal, R Chaturvedi, P Kumar, P Sharma, …
    Citation: Scientific Reports 11 (1), 3799
    Year: 2021
  • Morphology, mechanism and optical properties of nanometer-sized MgO synthesized via facile wet chemical method
    Author(s): R Verma, KK Naik, J Gangwar, AK Srivastava
    Citation: Materials Chemistry and Physics 148 (3), 1064-1070
    Year: 2014
  • Interactions of titania based nanoparticles with silica and green-tea: Photo-degradation and luminescence
    Author(s): R Verma, A Awasthi, P Singh, R Srivastava, H Sheng, J Wen, DJ Miller, …
    Citation: Journal of Colloid and Interface Science 475, 82-95
    Year: 2016
  • Shape control synthesis, characterizations, mechanisms, and optical properties of large-scaled metal oxide nanostructures of ZnO and TiO₂
    Author(s): R Verma, B Mantri, AK Srivastava
    Citation: Advanced Materials Letters 6 (4), 324-333
    Year: 2015