Haribhau Gholap | Nanotechnology | Best Researcher Award

Published-on by Indian Scientist

Dr. Haribhau Gholap | Nanotechnology | Best Researcher Award

Fergusson College (Autonomous) Pune, India

Author Profile

🧑‍🎓 Early Academic Pursuits

Dr. Haribhau M. Gholap, Ph.D. (Physics), has always exhibited a profound passion for science, particularly in the domain of materials science and nanotechnology. His academic journey began with a Bachelor of Science (B.Sc.) in Physics in 2002 from Jijamata College, affiliated with Savitribai Phule Pune University (formerly University of Pune). He followed this with a Master of Science (M.Sc.) in Physics in 2004 from the same university, laying a strong foundation in core physics principles such as solid state physics, optics, and material science. 🧪

Dr. Gholap earned his Ph.D. in Physics in June 2013 under the esteemed mentorship of Prof. Arun G. Banpurkar and Dr. Gauri Kulkarni at the Department of Physics, Savitribai Phule Pune University. His research was conducted in collaboration with Prof. Satishchandra B. Ogale, a renowned senior scientist at the National Chemical Laboratory, Pune. His doctoral thesis titled “Bifunctional Nanoparticles based on Semiconductor Quantum Dots: Synthesis & Applications” marked the beginning of a promising research career in quantum dots and nanomaterials. 🌟

👨‍🏫 Professional Endeavors

Currently serving as an Associate Professor in the Department of Physics at Fergusson College (Autonomous), Pune, Dr. Gholap has over 20 years of teaching experience and 12 years of post-doctoral research experience. He is also a recognized Ph.D. guide at Fergusson College, affiliated with Savitribai Phule Pune University, where he currently supervises two doctoral candidates.

Dr. Gholap has taught a wide array of undergraduate and postgraduate courses, including Nuclear Physics, Material Science, Experimental Techniques, Physics of Nanomaterials, and Vacuum Technology & Thin Film Physics. His efforts have significantly contributed to student engagement in on-job training (OJT) and practical laboratory work. 💡📘

🔬 Contributions and Research Focus

Dr. Gholap’s research focuses on the experimental and theoretical study of nanomaterials, particularly semiconductor quantum dots, graphitic carbon nitride, metal oxides, and earth-abundant materials like CZTS. He specializes in the green synthesis of nanomaterials such as metal sulphides, and their integration into nanocomposites for various applications. 🌱

His areas of expertise also extend to nanobiotechnology, exploring antibacterial and antibiofilm properties, antibiotic degradation, and thermoelectric applications of nanomaterial-based composites. On the theoretical front, he employs Density Functional Theory (DFT) and Molecular Dynamics (MD) approaches to model and analyze nanostructures. 🔍💻

One of his notable contributions includes research in photocatalytic degradation of pharmaceutical pollutants using CZTS nanoparticles, published in Materials Science and Engineering B (2025), reflecting his commitment to environmental sustainability. 🌍

🏆 Accolades and Recognition

Dr. Gholap has received numerous awards and fellowships throughout his career:

  1. 🎓 UGC Raman Post-Doctoral Fellowship in the USA (2016–2017), awarded by UGC, New Delhi.

  2. 🎖️ Visiting Fellowship at Jawaharlal Nehru Centre for Advanced Scientific Research (JNCASR), Bangalore (2013–14).

  3. 🧪 Research Fellowship from Indian Academy of Science at ICMS, JNCASR, under Dr. Ranjan Datta (2014).

  4. 🗣️ Best Oral Presentation Award – Raman Memorial Conference (RMC), Pune University (2012).

  5. 🖼️ Best Poster Presentation Award – National Seminar on Nanoscience, Nashik (2010).

  6. 🌍 Travel Grant – Level One Workshop on RBPT by IISER Pune & Sheffield Hallam University (2018).

  7. 🏅 Best Paper Award – 4th International Conference on Global Trends in Sustainable Technology, REVA University (2024).

  8. 📜 Faculty Improvement Programme Fellowship – UGC, New Delhi for PhD completion (2011–13).

  9. Qualified MH-SET (State Eligibility Test) in Physical Science (2005).

🌐 Impact and Influence

As a PhD supervisor, seasoned educator, and international research fellow, Dr. Gholap has contributed immensely to the growth of nanotechnology in India. His interdisciplinary research spans energy, environmental science, biomedicine, and device physics, making it relevant to both academic and industrial stakeholders. His focus on green synthesis and sustainable technology addresses global environmental concerns, enhancing his impact beyond the academic realm. 🌐🔬

He has played a key role in integrating nanoscience into academic curricula and has inspired a generation of students to explore careers in emerging technologies like quantum materials and nano-enabled therapeutics.

🔮 Legacy and Future Contributions

Dr. Haribhau Gholap’s enduring legacy lies in his dedication to teaching, interdisciplinary research, and mentorship. His current and future research aims to enhance the efficiency and sustainability of nanomaterials in real-world applications — from drug delivery and biosensing to clean energy and wastewater treatment.

As global demand for smart materials and nano-enabled solutions grows, his pioneering work in semiconductor nanostructures, DFT modeling, and biomedical nanotechnology is expected to contribute significantly to the advancement of green technologies and smart health innovations. 🧬⚡

With a strong academic lineage, a global research network, and a commitment to societal impact, Dr. Gholap continues to shape the future of nanotechnology education and research in India and beyond. 🚀

Notable Publications 

    1. Title: Efficient photocatalytic degradation of pharmaceutical pollutants using CZTS nanoparticles
      Authors: V. Umbrajkar, M. Kaladagi, A.S. Mandawade, H.M. Gholap, M. Khater
      Journal: Materials Science and Engineering B
      Year: 2025

MONOJIT MONDAL | Nanotechnology | Best Researcher Award

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Dr. MONOJIT MONDAL | Nanotechnology | Best Researcher Award

IIT Kharagpur, India

Author Profile

Early Academic Pursuits 📚

Dr. Monojit Mondal has had an illustrious academic journey, marked by excellence in electrical engineering, nanoscience, and materials technology. His early education laid the foundation for his later achievements in advanced nanotechnology and energy storage applications.

He began his secondary education at Laban Hrad Vidyapith, West Bengal, India, where he excelled academically, securing 88.25% (first division star) in his 10th standard and 82.80% in his 12th standard, specializing in Physics, Chemistry, and Mathematics (PCM). These achievements demonstrated his strong analytical and problem-solving abilities, setting the stage for his future endeavors. 🎓

Dr. Mondal pursued his B.Tech. in Electrical Engineering from Netaji Subhash Engineering College (2008-2012), affiliated with the West Bengal University of Technology (now MAKAUT). His undergraduate studies provided him with in-depth knowledge of electrical systems, which later became crucial in his exploration of nanotechnology-based energy solutions. Maintaining an impressive CGPA of 8.13/10, he showcased his ability to grasp complex engineering concepts and apply them effectively. ⚡

To further his expertise, he completed his M.Tech. in Nanoscience & Technology (2014-2016) at Jadavpur University, one of India’s premier institutions. Under the guidance of Prof. Kalyan Kumar Chattopadhyay, he worked on low-dimensional transition metal hydroxides and oxide-based nanostructures for energy storage applications, securing a CGPA of 8.46/10. This period of research marked his deep dive into energy storage systems, combining nanotechnology and material science. 🔬

Driven by his passion for materials discovery and energy storage, he pursued a Ph.D. at the School of Nano Science and Technology, IIT Kharagpur (2017-2024). His groundbreaking thesis on “Fabrication and Augmenting of Transition Metal-Based Negative and Positive Electrode Composite for High Energy Density Supercapacitor Devices” was supervised by Prof. Tarun Kanti Bhattacharyya (E&ECE Department) and Prof. Dipak Kumar Goswami (Department of Physics). Achieving a coursework grade of 8.00/10, his research contributed significantly to advancements in high-energy-density supercapacitors. ⚙️

Professional Endeavors & Research Focus 🔬

Currently, Dr. Monojit Mondal is a Marie Curie Postdoctoral Research Fellow at the Institute for Materials Discovery (IMD), University College London (UCL). His work revolves around developing next-generation energy storage devices, with a focus on supercapacitors and nanomaterials.

His Ph.D. research at IIT Kharagpur involved designing, fabricating, and optimizing transition metal-based electrode composites to enhance supercapacitor performance. This research aimed at solving energy storage challenges by increasing efficiency, sustainability, and scalability. 🌍

His M.Tech. research at Jadavpur University involved the synthesis of nanostructured metal hydroxides and oxides with carbon quantum dots, focusing on their applications in high-performance energy storage systems. This interdisciplinary research combined materials science, electrical engineering, and nanotechnology, leading to innovative solutions for renewable energy. 🔋

Contributions and Innovations 🏆

Dr. Mondal’s research contributions are highly regarded in the field of nanoscience and energy storage. Some of his notable contributions include:

✔️ High-Energy-Density Supercapacitors: His research has significantly improved energy storage efficiency in supercapacitor devices, paving the way for next-generation electronics. ⚡ ✔️ Nanomaterial-Based Electrode Design: Developed advanced transition metal composites that enhance electrode performance, leading to longer-lasting and more efficient energy storage. 💡 ✔️ Integration of Carbon Quantum Dots: Successfully integrated carbon quantum dots with metal oxides, leading to better conductivity and charge retention. 🔄 ✔️ Sustainable Energy Solutions: Focused on eco-friendly and cost-effective material synthesis, ensuring that his research aligns with sustainability goals. 🌱

Accolades and Recognition 🏅

Dr. Monojit Mondal has received numerous awards and recognitions for his groundbreaking work in nanoscience and supercapacitor technology:

🏆 Marie Curie Postdoctoral Research Fellowship at UCL, a prestigious recognition of his contributions to materials discovery and energy storage. 🏆 Ph.D. Research at IIT Kharagpur, under renowned supervisors, showcasing his expertise in supercapacitor electrode fabrication. 🏆 Consistently High Academic Performance, maintaining 8+ CGPA throughout his B.Tech., M.Tech., and Ph.D. 🏆 Published Research Papers in High-Impact Journals, contributing significantly to energy storage advancements.

Impact and Influence 🌍

Dr. Mondal’s work has had a far-reaching impact on the fields of nanotechnology, electrical engineering, and renewable energy. His research has:

Advanced the efficiency of supercapacitors, making them more viable for commercial use. ✅ Pioneered new material compositions that are more sustainable and cost-effective. ✅ Contributed to next-generation energy storage solutions, crucial for electric vehicles (EVs), smart grids, and portable electronics. ✅ Inspired young researchers and students, motivating the next generation to pursue cutting-edge nanoscience research. 🚀

Legacy and Future Contributions 🚀

Looking ahead, Dr. Monojit Mondal aims to continue his groundbreaking research in nanotechnology and energy storage. His future contributions are expected to:

🔍 Enhance the Commercial Viability of Supercapacitors – Bridging the gap between research and industrial applications. 🔍 Develop Novel Materials for Energy Storage – Creating high-performance, low-cost alternatives for existing battery technologies. 🔍 Contribute to Green Energy Solutions – Innovating sustainable and eco-friendly storage methods for renewable energy applications. 🔍 Expand AI-Driven Material Discovery – Utilizing machine learning and AI to accelerate the discovery of high-performance materials.

With his strong research background, interdisciplinary expertise, and commitment to sustainability, Dr. Monojit Mondal is set to redefine the future of nanoscience and energy storage technologies. His contributions will continue to shape the landscape of renewable energy, smart materials, and futuristic engineering solutions. 🌟✨

Citations

A total of 329 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations        329
  • h-index          09
  • i10-index       09

Notable Publications 

  • Microwave-assisted vanadium interpolated cobalt-MOF cathode assembled 3 V high performing asymmetric supercapacitor with ionic liquid gel polymer electrolyte
    Authors: M. Mondal, A. Datta, T. K. Bhattacharyya
    Journal: Applied Surface Science
    Year: 2025.

  • Biocompatible all carbon hollow microneedles for effective transdermal delivery
    Authors: M. Roy, M. Mondal, S. Ghosh, P. Lahiri, T. K. Bhattacharyya
    Journal: Journal of Micromechanics and Microengineering
    Year: 2025.

  • Machine Learning-Based Classification of VOCs for Breath Analyzer Linked to Different Chronic Diseases
    Authors: G. Karmakar, D. Kar, M. Mondal, S. Tripathy, S. K. D. Mondal, T. K. Bhattacharyya
    Journal: 2024 IEEE International Conference on Bioinformatics and Biomedicine (BIBM)
    Year: 2024.

  • Lemon Aids Green Synthesis of Reduced Graphene Oxide-Based FET Sensors for the Detection of Lead and Cadmium Ions in Water
    Authors: M. Mondal, A. Sett, V. K. Tewari, T. K. Bhattacharyya
    Journal: 2024 IEEE SENSORS
    Year: 2024.

  • From natural abundant silk to TENG; from biowaste to carbon supercap: A natural sustainable approach of active energy storage
    Authors: L. Sarkar, M. Mondal, T. K. Bhattacharyya
    Journal: Journal of Energy Storage
    Year: 2024.

Sanjay Wakchaure | Nanomaterials | Best Researcher Award

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Dr. Sanjay Wakchaure | Nanomaterials | Best Researcher Award

PVG’s S S Dhamankar College of Commerece, Science and Arts, India.

Author Profile

Early Academic Pursuits 🎓

Dr. Sanjay Gauram Wakchaure’s academic journey is a testament to his dedication to the field of chemistry 🧪. He completed his BSc in Chemistry with an impressive 68.50% and further pursued an MSc in Analytical Chemistry, securing 65.55%. His relentless quest for knowledge led him to earn a Ph.D. in Chemistry from the prestigious University of Pune in February 2011. To expand his expertise, he also pursued an MBA in Marketing Management from the same university, showcasing his interest in blending science and business 🏆.

Professional Endeavors 🏢

With a remarkable 27-year career comprising both teaching (26.2 years) and industry (10 months) experience, Dr. Wakchaure has significantly contributed to the education sector. His teaching career began in 1998, and he has steadily climbed the ranks, holding key positions at various institutions:

  • Incharge Principal & Associate Professor at PVG’s SS Dhamankar College, Nashik (2018 – Present) 🏫
  • Assistant Professor at PVGCOE, Nashik (2010 – 2018) 👨‍🏫
  • Senior Lecturer & Lecturer at SVMEC, Chincholi (1998 – 2010) 📚
  • Quality Assurance Officer at FDC Ltd., Sinnar (1997 – 1998) 🏭

His diverse experience in academia and industry has shaped his approach to teaching and research, enabling him to bridge the gap between theoretical knowledge and practical applications.

Contributions and Research Focus 🔬

Dr. Wakchaure’s primary research interests lie in Material Science, Nanotechnology, Zeolites, and Material Characterization. His work has significantly contributed to the development of innovative materials that enhance industrial and environmental applications. His research in nano-technology 🏗️ has opened new avenues in material enhancement and sustainability 🌱.

Some of his key contributions include:

  • Development of novel materials for industrial applications 🔍
  • Research on the application of zeolites in environmental science 🌍
  • Advancements in nanotechnology for improved material characterization 🧬

Accolades and Recognition 🏅

Dr. Wakchaure’s expertise has been recognized at multiple levels. His commitment to scientific excellence and education has earned him a reputable place in the academic and research community. His students and peers highly regard his ability to simplify complex scientific concepts and his dedication to fostering a research-oriented mindset in young scholars 📖.

Impact and Influence 🌟

As an Incharge Principal, Dr. Wakchaure plays a pivotal role in shaping the academic policies of PVG’s SS Dhamankar College. His leadership has contributed to the growth and development of the institution, ensuring students receive quality education and exposure to cutting-edge research 🏛️.

His influence extends beyond the classroom, as he actively participates in seminars, workshops, and conferences, sharing his insights on material science and nanotechnology. His ability to mentor and guide students has resulted in numerous success stories, with many of his protégés excelling in academia and industry 💡.

Legacy and Future Contributions 🚀

Dr. Wakchaure’s legacy is deeply embedded in his commitment to education, research, and scientific innovation. Looking ahead, he aims to:

  • Expand research in sustainable materials 🌍
  • Develop more industry-academia collaborations 🤝
  • Continue mentoring aspiring researchers 🏆
  • Contribute to policy-making in education and research 🏫

His passion for advancing science and improving educational methodologies ensures that his contributions will continue to inspire future generations of scientists and educators 📚.

Citations

A total of 66 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations        66
  • h-index          18
  • i10-index       05

Notable Publications 

  • Hydrothermal synthesis and characterization of perchlorate enclathrated sodalite Na8 [GaSiO4] 6 (ClO4) 2 and silver derivatives of the type Na8− xAgx [GaSiO4] 6 (ClO4) 2

    • Authors: A.V. Borhade, S.G. Wakchaure
    • Journal: Studies in Surface Science and Catalysis
    • Year: 2008.

  • Mordenite’s mineralogical study and application as an efficient adsorbent for heavy metal detection from wastewater

    • Authors: S.G. Wakchaure, G.B. Dabhade, A.V. Borhade, A.A. Malpure, S. Palde, et al.
    • Journal: Journal of the Indian Chemical Society
    • Year: 2025.

  • Gas sensing execution of ZnAl₂O₄

    • Authors: G. Dabhade, A. Malpure, A. Borhade, S. Wakchaure, R. Amrukar, P. Wani
    • Journal: Materials Today: Proceedings
    • Year: 2024.

  • ZnAs₂O₄’s gas sensing performance

    • Authors: G. Dabhade, A. Malpure, A. Borhade, S. Wakchaure, Y. Rajesh, P. Shivde
    • Journal: Materials Today: Proceedings
    • Year: 2024.

  • Synthesis and Characterization of Cadmium exchanged Sodalite

    • Authors: A.V. Borhade, S.G. Wakchaure
    • Journal: International Journal of Chemical Synthesis and Chemical Reactions
    • Year: 2016.

Asit Baran Panda | Materials Chemistry | Best Researcher Award

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Dr. Asit Baran Panda | Materials Chemistry | Best Researcher Award

CSIR_National Metallurgical Laboratory, India

Author Profile

Early Academic Pursuits 📚

Dr. Asit Baran Panda’s academic journey reflects his unwavering passion for science, especially in chemistry and material science. His foundation was laid with a B.Sc. in Chemistry (Hons.) from Vidyasagar University in 1995, followed by an M.Sc. in Chemistry from Kanpur University in 1998. Dr. Panda’s thirst for advanced knowledge led him to the prestigious Indian Institute of Technology (IIT), Kharagpur, where he completed his Ph.D. in 2004, specializing in nanostructured materials. This robust academic foundation positioned him as a future leader in material science research.

Professional Endeavors 🌍

Dr. Panda currently serves as a Senior Principal Scientist in the Functional Materials Group (FM) of the Advanced Materials and Processes (AMP) Division at CSIR-National Metallurgical Laboratory (CSIR-NML), Jamshedpur. His role involves spearheading cutting-edge research in nanomaterials, energy storage, and environmental solutions. Over the years, he has gained recognition for his innovative work in materials science, contributing significantly to the development of sustainable technologies.

Contributions and Research Focus 🔬

Dr. Panda’s research interests span diverse areas, focusing on the design and synthesis of size, shape, and morphology-selective nanostructured materials. His pioneering efforts include:

  • Energy Conversion and Storage ⚡
    Dr. Panda has made remarkable contributions to the development of Li-ion batteries and capacitors, essential for advancing renewable energy solutions. He has also worked extensively on visible-light-driven photocatalysis for clean energy generation and water splitting to produce sustainable hydrogen fuel.
  • Environmental Remediation 🌱
    He has developed innovative nanostructures for tackling environmental pollutants, contributing to eco-friendly and sustainable solutions.
  • Heterogeneous Catalysis for Green Chemistry ♻️
    Dr. Panda’s work in designing catalysts for green chemical processes aligns with global efforts toward reducing industrial carbon footprints.
  • Inorganic Pigments 🎨
    His expertise extends to inorganic pigments, driving advancements in materials for industrial applications.

Accolades and Recognition 🏆

Dr. Panda’s groundbreaking research has earned him numerous accolades and recognition. As a senior scientist at a leading national research institution, his contributions are widely acknowledged in academic and industrial circles. His innovations have significantly impacted material science and its applications in energy, environment, and industry.

Impact and Influence 🌟

Dr. Panda’s work has had a profound impact on the field of nanomaterials. His advancements in energy storage have the potential to revolutionize the renewable energy sector, enabling efficient and sustainable solutions. Moreover, his contributions to environmental remediation and green chemistry underscore his commitment to addressing pressing global challenges.

Legacy and Future Contributions 🌐

As a researcher, mentor, and innovator, Dr. Panda continues to inspire the next generation of scientists. His vision for creating sustainable and efficient materials aligns with global priorities for clean energy and environmental conservation. Future endeavors may include:

  • Expanding research in graphene-based nanomaterials for multifaceted applications.
  • Developing next-generation materials for solar energy harvesting.
  • Collaborating globally to tackle challenges in environmental sustainability and energy efficiency.

Citations

A total of 7434 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations        7434
  • h-index          50
  • i10-index       114

Notable Publications

  • Stimulus-Responsive, Biodegradable, Biocompatible, Covalently Cross-Linked Hydrogel Based on Dextrin and Poly(N-isopropylacrylamide) for in Vitro/in Vivo
    • Authors: D. Das, P. Ghosh, A. Ghosh, C. Haldar, S. Dhara, A. B. Panda, S. Pal
    • Journal: ACS Applied Materials & Interfaces
    • Year: 2015.
  • Dextrin and Poly(Acrylic Acid)-Based Biodegradable, Non-Cytotoxic, Chemically Cross-Linked Hydrogel for Sustained Release of Ornidazole and Ciprofloxacin
    • Authors: D. Das, P. Ghosh, S. Dhara, A. B. Panda, S. Pal
    • Journal: ACS Applied Materials & Interfaces
    • Year: 2015.
  • Dextrin Cross Linked with Poly(HEMA): A Novel Hydrogel for Colon-Specific Delivery of Ornidazole
    • Authors: D. Das, R. Das, P. Ghosh, S. Dhara, A. B. Panda, S. Pal
    • Journal: RSC Advances
    • Year: 2013.
  • Facile Low-Temperature Synthesis of Ceria and Samarium-Doped Ceria Nanoparticles and Catalytic Allylic Oxidation of Cyclohexene
    • Authors: N. Sutradhar, A. Sinhamahapatra, S. Pahari, M. Jayachandran, A. B. Panda
    • Journal: The Journal of Physical Chemistry C
    • Year: 2011.
  • Mesoporous Zirconium Phosphate Catalyzed Reactions: Synthesis of Industrially Important Chemicals in Solvent-Free Conditions
    • Authors: A. Sinhamahapatra, N. Sutradhar, B. Roy, A. Tarafdar, H. C. Bajaj, A. B. Panda
    • Journal: Applied Catalysis A: General
    • Year: 2010.

Aayasha Negi | Nanochemistry | Women Researcher Award

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Dr. Aayasha Negi | Nanochemistry | Women Researcher Award

Iftm university, India

Author Profile

Early Academic Pursuits: A Solid Foundation 📚

Dr. Aayasha Negi’s academic journey exemplifies a quest for excellence, laying a strong foundation in the field of chemistry. Born and raised in Uttarakhand, she demonstrated academic brilliance early on, securing an impressive 84.2% in High School (2009) and 78% in Intermediate (2011) under the Board of School Education Uttarakhand. Her love for science and mathematics led her to pursue a Bachelor’s degree in PCM at SGRR PG College, Dehradun, where she graduated with distinction, achieving a notable 70% in 2014.

Her academic curiosity deepened during her Master’s in Chemistry at MKP PG College, Dehradun. Here, she honed her skills in theoretical and practical aspects of the discipline, earning an impressive CGPA of 8.1/10 in 2016. Driven by her fascination with chemical structures and reactions, Dr. Negi embarked on a Ph.D. in Chemistry at Hemwati Nandan Bahuguna Garhwal University, achieving a stellar 80% in 2022. Her doctoral research explored the synthesis of nanoparticles using medicinal plants, marking the beginning of her innovative contributions to nanoscience.

Professional Endeavors: Shaping Future Chemists 🧑‍🏫

As an Assistant Professor of Chemistry at IFTM University, Moradabad, Dr. Negi seamlessly blends her expertise in Nanosciences with her passion for teaching Inorganic and Physical Chemistry. She is committed to fostering an engaging learning environment that sparks curiosity among her students. Her teaching philosophy revolves around making complex chemical concepts accessible and exciting while inspiring the next generation to delve deeper into the intricacies of chemistry.

Dr. Negi’s ability to bridge cutting-edge research with effective teaching has positioned her as a valuable mentor. By integrating real-world applications of nanoparticles and nanocomposites into her curriculum, she ensures her students grasp the relevance of chemistry in solving global challenges.

Contributions and Research Focus: Innovation at the Forefront 🔬

Dr. Negi’s research focus lies at the intersection of nanotechnology and sustainable development. Her expertise includes synthesizing crystalline nanoparticles using green methods, harnessing the power of medicinal plants to create innovative nanomaterials. Her work explores the biological efficacy and dye degradation potential of these nanoparticles, addressing critical challenges in environmental science and healthcare.

With proficiency in advanced techniques such as XRD, UV-Visible spectroscopy, FT-IR analysis, SEM, TEM, and TGA, she has made significant contributions to structural characterization and metallographic examinations. Her research is aimed at developing environmentally friendly solutions while advancing the field of nanosciences.

Her publications in esteemed journals reflect her dedication to creating a sustainable future. By combining traditional knowledge of medicinal plants with modern nanotechnology, Dr. Negi is charting a path toward innovative applications in biomedicine and environmental remediation.

Accolades and Recognition: Acknowledging Excellence 🏆

Throughout her career, Dr. Negi has garnered recognition for her impactful research and teaching. Her exceptional academic performance during her undergraduate and postgraduate studies set the stage for her illustrious career. Her doctoral research earned accolades for its novelty in nanoparticle synthesis and its potential applications.

As a dedicated mentor, she has received appreciation from her students and colleagues alike, reflecting her ability to inspire and lead. Her innovative teaching methods and commitment to advancing chemistry education have earned her a reputation as a distinguished educator and researcher.

Impact and Influence: Creating Ripples of Change 🌍

Dr. Negi’s work has far-reaching implications, addressing pressing issues in environmental sustainability and biological applications. By synthesizing nanomaterials using eco-friendly methods, she contributes to reducing the environmental footprint of chemical processes. Her focus on dye degradation and biological efficacy exemplifies the practical applications of her research, influencing fields ranging from environmental science to healthcare.

Through her teaching, she has inspired countless students to pursue careers in chemistry, instilling a sense of curiosity and critical thinking. Her mentorship emphasizes the importance of interdisciplinary approaches, preparing students to tackle global challenges with innovative solutions.

Legacy and Future Contributions: A Vision for Progress 🚀

Dr. Negi envisions a future where nanoscience plays a pivotal role in solving complex global problems. She aims to continue her research on nanocomposites and medicinal plants, exploring their potential in creating sustainable technologies. Her commitment to fostering curiosity and innovation ensures that her impact extends beyond her own work, influencing future generations of chemists.

As an educator and researcher, she is dedicated to creating a lasting legacy in chemistry. By mentoring aspiring scientists and pushing the boundaries of nanotechnology, Dr. Negi embodies the spirit of progress and discovery. Her efforts underscore the importance of a synergistic approach to science, blending traditional knowledge with cutting-edge research for a sustainable future. 🌱

Citations

A total of 39 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations        39
  • h-index          15
  • i10-index       04

Notable Publications 

  • Title: Exploring antidiabetic & antibacterial potential of Ag/MgO-NCs mediated via Ficus auriculata: Experimental and computational analysis
    Authors: Negi, A., Tamta, G., Pandey, M., Al-Otibi, F.O., Mehra, N.
    Journal: Inorganic Chemistry Communications
    Year: 2025.
  • Title: Plant-mediated Z-scheme ZnO/TiO2-NCs for antibacterial potential and dye degradation: experimental and DFT study
    Authors: Negi, A., Ringwal, S., Pandey, M., Taha Yassin, M.
    Journal: Scientific Reports
    Year: 2024.
  • Title: Enhancing wastewater treatment: DFT and experimental insights into ZnO-implanted TiO2 Z-scheme photocatalyst mediated via Smilax aspera
    Authors: Yassin, M.T., Negi, A., Ringwal, S., Sati, P., Tripathi, P.K.
    Journal: Optical Materials
    Year: 2024.
  • Title: Development and characterization of fly ash enriched epoxy coatings for corrosion protection in deep sea water
    Authors: Pandey, M., Mehtab, S., Zaidi, M.G.H., Aziz, M., Pandey, M.
    Journal: Surface and Coatings Technology
    Year: 2024.
  • Title: Citrus medica-mediated Ag-doped MgO nanocomposites as green adsorbent and its catalytic performance in the rapid treatment of water contaminants
    Authors: Ringwal, S., Negi, A., Bartwal, A.S., Sati, S.C.
    Journal: Nanotechnology for Environmental Engineering
    Year: 2024.

Madhavi Dalsaniya | Materials Science | Best Researcher Award

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Ms. Madhavi Dalsaniya | Materials Science | Best Researcher Award

Warsaw University of Technology, India

Author Profile

Early Academic Pursuits 🎓

Madhavi H. Dalsaniya’s academic journey is a testament to her dedication and passion for the field of material science. Her formative years in education began at St. Francis High School in Jamnagar, Gujarat, India, where she achieved Distinction in her Secondary Education (2011). This early academic success paved the way for her further pursuit of knowledge in the field of Physics. Madhavi continued her academic endeavors at Sunrise School in Jamnagar, where she completed her Higher Secondary Education in 2013, securing First Class. With a solid foundation in physics, she pursued her undergraduate studies at The Maharaja Sayajirao University of Baroda (MSU), Vadodara, Gujarat, where she earned a B.Sc. in Physics in 2016, finishing with Second Class.Her strong academic performance led her to pursue a Master’s degree in Physics at the same institution, The Maharaja Sayajirao University of Baroda, where she graduated in 2018 with First Class honors. This period of advanced studies sparked her growing interest in Material Science, which later became the focal point of her career. It was during her Master’s that she developed a keen interest in the properties of materials and their potential applications, setting the stage for her future academic endeavors.

Professional Endeavors and Research Focus 🔬

Madhavi H. Dalsaniya’s professional journey has been marked by a steadfast commitment to the study and application of material science. Currently, she is pursuing her Ph.D. in Material Science at the prestigious Warsaw University of Technology in Warszawa, Poland, a position she has held since October 2020. The focus of her doctoral research is on the properties and applications of materials in various fields, contributing to the growing body of knowledge in material science. Her work involves exploring new materials with enhanced properties and understanding their structural characteristics at the atomic and molecular levels.As a doctoral student, Madhavi has not only been working diligently on her research but also actively engaging with the scientific community through academic conferences, seminars, and workshops. She has established herself as a budding researcher in the field, gaining valuable insights and collaborating with experts in the field of material science. Her research contributions focus on novel materials that can be used in a wide array of industries, including electronics, nanotechnology, and renewable energy.

Contributions and Research Focus 🌍

Madhavi’s research is making significant strides in the field of material science. She focuses on advancing the understanding of material properties, which can potentially lead to groundbreaking advancements in various technological applications. Her research encompasses a range of topics, including the study of nanomaterials, their synthesis, characterization, and potential applications in energy storage and conversion systems. By investigating the unique properties of different materials at the microscopic level, Madhavi aims to contribute to the development of more efficient and sustainable materials for future technologies.One of her key research areas is the exploration of new materials with enhanced conductivity and stability for use in electronic devices. She is also interested in the role of nanomaterials in renewable energy, including solar cells and energy storage devices. Through her work, Madhavi aims to push the boundaries of material science and contribute to the creation of more sustainable and efficient solutions for contemporary challenges.

Accolades and Recognition 🏆

Although still early in her career, Madhavi has already earned recognition for her academic achievements and research contributions. Her dedication to the field of material science has not gone unnoticed, and she has been acknowledged for her outstanding performance as a doctoral student. The first-class honors she received during her M.Sc. program laid the foundation for her future academic success. As a Ph.D. student, Madhavi has been invited to present her research at several international conferences, where her work has garnered attention for its originality and scientific rigor.Her involvement in the research community and her commitment to advancing material science have also led to opportunities for collaboration with prominent researchers in her field. Her work has contributed to expanding the knowledge base surrounding the application of nanomaterials in various industries, solidifying her reputation as a promising researcher.

Impact and Influence 🌟

Madhavi H. Dalsaniya’s work is poised to make a lasting impact on the field of material science. By advancing our understanding of the properties of materials, her research is expected to lead to innovations that will drive the development of new technologies. In particular, her exploration of nanomaterials and their potential applications in renewable energy and electronics could play a significant role in addressing some of the world’s most pressing challenges, such as energy storage and climate change.Her influence extends beyond her research contributions, as she serves as a role model for aspiring scientists and researchers, particularly women in STEM fields. Madhavi’s academic journey and perseverance in pursuing advanced research serve as an inspiration to others who seek to contribute to scientific advancements and make a meaningful impact on society.

Legacy and Future Contributions 🌱

Looking toward the future, Madhavi H. Dalsaniya is on track to make significant contributions to the world of material science. As she continues her Ph.D. research, her work will undoubtedly leave a lasting legacy in the field. She aims to continue exploring the applications of new materials in the realms of energy, electronics, and sustainability. The potential for her research to shape future technologies is immense, and she is well-positioned to be a leading figure in the development of novel materials that address global challenges.Madhavi’s commitment to advancing material science, coupled with her passion for research and innovation, ensures that her future contributions will have a profound impact on both the scientific community and society at large. As she progresses in her academic career, her work is expected to inspire future generations of scientists and engineers, making her a key figure in the evolution of material science. 🌍🔬

Citations

A total of 106 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations         106
  • h-index           12
  • i10-index        05

Notable Publications 

  • Title: Pressure-Dependent Thermal and Mechanical Behaviour of a Molecular Crystal of Bromine
    Authors: Dalsaniya, M.H., Upadhyay, D., Patel, P., Kurzydłowski, K.J., Kurzydłowski, D.
    Journal: Molecules
    Year: 2024.
  • Title: Exploration of Si-N Compounds as High Energy Density Materials
    Authors: Patel, P., Patel, S., Dalsaniya, M.H., Kurzydłowski, K.J., Jha, P.K.
    Journal: Physical Chemistry Chemical Physics
    Year: 2024.
  • Title: High-Pressure Stabilization of Open-Shell Bromine Fluorides
    Authors: Dalsaniya, M.H., Upadhyay, D., Jan Kurzydłowski, K., Kurzydłowski, D.
    Journal: Physical Chemistry Chemical Physics
    Year: 2023.
  • Title: A Density Functional Theory Study on the Assessment of α-CN and α-CP Monolayers as Anode Material in Li-Ion Batteries
    Authors: Patel, P., Patel, S., Chodvadiya, D., Kurzydłowski, K.J., Jha, P.K.
    Journal: Journal of Energy Storage
    Year: 2023.
  • Title: Defects and Doping Engineered Two-Dimensional o-B2N2 for Hydrogen Evolution Reaction Catalyst: Insights from DFT Simulation
    Authors: Chodvadiya, D., Dalsaniya, M.H., Som, N.N., Kurzydłowski, K.J., Jha, P.K.
    Journal: International Journal of Hydrogen Energy
    Year: 2023.