Deependra Parajuli | Material Science | Innovative Research Award

Published on by Forensic Scientist

Assist. Prof. Dr. Deependra Parajuli | Material Science | Innovative Research Award

Tribhuvan University | Nepal

Dr. Deependra Parajuli, Ph.D., is a distinguished Associate Professor of Physics and Senior Researcher at the Research Center for Applied Science and Technology (RECAST), Tribhuvan University, Kathmandu, Nepal. With a strong foundation in experimental and computational physics, he also serves as a Sports Expert at the National Sports Council. Renowned for his multidimensional contributions in academia, innovation, and national-level scientific leadership, Dr. Parajuli has represented Nepal in numerous international scientific forums and Olympiads, reflecting his dedication to both science and education.

Author ProfilešŸ‘¤

Google Scholar

ORCID

Scopus

Strengths for the AwardsāœØ

Dr. Deependra Parajuli exemplifies innovative excellence in research through his sustained contributions to physics, materials science, and interdisciplinary technology. His Ph.D. thesis on MXenes as Topological Insulators reflects advanced exploration into next-generation materials, while his subsequent research on nanocomposites, solar technologies, ferrites, and quantum-level simulations illustrates a forward-thinking and application-driven mindset.

Key strengths include:

  • Highly cited research: Over 1,710 citations with an h-index of 25 and i10-index of 59, indicating impactful scholarly contributions.

  • Robust publication record: More than 30 articles in reputed Scopus-indexed journals (Q1ā€“Q4) such as Applied Physics A, Results in Physics, and Journal of Materials Science: Materials in Electronics. Notable innovative works include:

  • Innovation in project execution: Led cutting-edge projects like Smart Perovskites for Smart Devices, Green Synthesis of Ferrite Nanoparticles for Cancer Therapy, and 4000W Solar Hydrogen Generators.

  • Academic leadership and mentorship: Supervised multiple M.Sc. and Ph.D. theses, including works on supercapacitor materials from bio-waste, which showcases sustainable and creative scientific inquiry.

  • Books and applied outreach: Authored over 13 books, blending scientific principles with martial arts and educational toolsā€”demonstrating his ability to integrate science into everyday learning and practice.

  • Recognition and honors: Winner of the NAST Technology Award 2081, IEEE Excellence Award 2023, IFSM Youth Award, and Nepal Bidhya Bhushan, which validate his impact in national and international research arenas.

šŸŽ“ Education

Dr. Parajuli began his academic journey with a School Leaving Certificate (SLC) in 1995 and continued through Intermediate Science and B.Sc. in Physics, Mathematics, and Statistics at Tribhuvan University, Nepal. He earned his M.Sc. in Physics in 2004, specializing in Solid State and Plasma Physics. He later completed his Ph.D. in Physics in 2020 from Andhra University, India, with his dissertation focused on the “Computational and Experimental Investigations on Mā€™2Mā€xXyene as Topological Insulator.” His academic path has been marked by excellence, winning scholarships and accolades at every stage.

šŸ§‘ā€šŸ« Experience

With over two decades of academic service, Dr. Parajuli began as a part-time lecturer in 2004 and has risen through ranks to become Assistant Professor and now Associate Professor. He has mentored numerous undergraduate and postgraduate theses, supervised Ph.D. candidates, and guided more than 25 research-based student projects. He has been a pivotal figure in Olympiad training, curriculum development, and organizing conferences and workshops, both nationally and internationally.

šŸ”¬ Research Interests On Material Science

Dr. Parajuliā€™s research interests lie in materials science, computational physics, nanotechnology, and solar cell efficiency modeling. He focuses on advanced materials like MXenes, ferrites, and perovskites, contributing to fields such as energy storage, semiconductors, and biomedical nanocomposites. He is actively involved in interdisciplinary research merging traditional knowledge with modern science.

šŸ… Awards & Honors

Dr. Parajuliā€™s contributions have been widely recognized through several prestigious awards including the Nepal Bidhya Bhushan “Ka”, the Science and Technology Promotion Award (NAST, GoN), the Education Award from the Ministry of Education, and the International Federation of Societies of Microscopy Youth Award. He also received the Silver Jubilee Scholarship from the Government of India and recently earned the Excellence Award in Professionalism and Research (2023).

šŸ“š Publications

  • Advancements in MXene-polymer nanocomposites in energy storage and biomedical applications
    Authors: D Parajuli, N Murali, D KC, K Samatha, AA Kim, M Park, B Pant
    Year: 2022
    Citations: 71

  • Magnetic and DC Electrical Properties of Cu Doped Coā€“Zn Nanoferrites
    Authors: P Himakar, D Parajuli, N Murali, V Veeraiah, K Samatha, TW Mammo, …
    Year: 2021
    Citations: 61

  • Cadmium substitution effect on structural, electrical and magnetic properties of Ni-Zn nano ferrites
    Authors: D Parajuli, PA Rao, V Raghavendra, B Suryanarayana, T Paulos, …
    Year: 2021
    Citations: 59

  • Effect of CrĀ³āŗ substitution on dc electrical resistivity and magnetic properties of Cuā‚€.ā‚‡Coā‚€.ā‚ƒFeā‚‚āˆ’ā‚“Crā‚“Oā‚„ ferrite nanoparticles…
    Authors: K Chandramouli, B Suryanarayana, PP Varma, V Raghavendra, …
    Year: 2021
    Citations: 49

  • Correction to: Microstructural, thermal, electrical and magnetic analysis of MgĀ²āŗ substituted Cobalt ferrite
    Authors: S Jesus Mercy, D Parajuli, N Murali, A Ramakrishna, Y Ramakrishna, …
    Year: 2021
    Citations: 49

  • Surface plasmon resonance biosensor sensitivity improvement employing of 2D materials and BaTiOā‚ƒ with bimetallic layers of silver
    Authors: A Uniyal, A Pal, G Srivastava, MM Rana, SA Taya, A Sharma, BR Altahan, …
    Year: 2023
    Citations: 46

  • Influence of CrĀ³āŗ substituted NiZnCo nano-ferrites: structural, magnetic and DC electrical resistivity properties
    Authors: GV Priya, N Murali, MK Raju, B Krishan, D Parajuli, P Choppara, …
    Year: 2022
    Citations: 45

  • Effect of Cu substitution on the structural, magnetic, and dc electrical resistivity response of Coā‚€.ā‚…Mgā‚€.ā‚…ā‚‹ā‚“Cuā‚“Feā‚‚Oā‚„ nanoferrites
    Authors: P Himakar, D Parajuli, K Jayadev, N Murali, P Taddesse, SY Mulushoa, …
    Year: 2021
    Citations: 45

  • Correlation between the structural, magnetic, and dc resistivity properties of Coā‚€.ā‚…Mā‚€.ā‚…ā‚‹ā‚“Cuā‚“Feā‚‚Oā‚„ (M = Mg, and Zn) nano ferrites
    Authors: D Parajuli, P Taddesse, N Murali, K Samatha
    Year: 2021
    Citations: 45

  • Structural, dc electrical resistivity and magnetic investigation of Mg, Ni, and Zn substituted Co-Cu nano spinel ferrites
    Authors: D Parajuli, N Murali, AV Rao, A Ramakrishna, K Samatha
    Year: 2022
    Citations: 43

āœ… Conclusion

Dr. Deependra Parajuli stands as a dynamic, visionary scholar whose academic, scientific, and educational contributions exemplify the spirit of innovation and excellence. With a career devoted to the advancement of physics, material science, and interdisciplinary applications, he is an ideal nominee for the Innovative Research Award. His global outreach, research productivity, mentorship, and leadership in both science and education make him a paragon of scholarly impact.

Haimin Li | Advanced Materials Engineering | Best Researcher Award

Published on by Forensic Scientist

Prof. Haimin Li | Advanced Materials Engineering | Best Researcher Award

Southwest Petroleum University | China

Prof. Haimin Li is a distinguished researcher and Associate Professor at the School of New Energy and Materials, Southwest Petroleum University, Chengdu, China. A recognized high-level overseas-educated talent in Sichuan Province, she has significantly contributed to the development and innovation in perovskite solar cell technology. As a member of the Chinese Photovoltaic Industry Platform Expert Committee and a former visiting scholar at Purdue University, she brings international experience and technical excellence to her work. Dr. Li also serves as a reviewer and guest editor for renowned international journals, and has co-authored a national-level textbook under Chinaā€™s 12th Five-Year Plan.

Author ProfilešŸ‘¤

Scopus

Strengths for the AwardsāœØ

Prof. Haimin Li stands out as a leading researcher in the field of photovoltaic materials and solar energy conversion, with particular emphasis on perovskite and perovskite/silicon tandem solar cells. Her academic credentials are robust, having earned a Ph.D. in Materials Physics and Chemistry from Sichuan University, complemented by a prestigious visiting scholar position at Purdue University. Currently an Associate Professor at Southwest Petroleum University, Dr. Li has amassed a rich portfolio of research achievements.

She has co-authored over 50 SCI-indexed publications, with many appearing in top-tier journals such as Advanced Materials, ACS Applied Materials & Interfaces, and Applied Surface Science. Notably, her most recent article published in Advanced Materials (2025) titled “Nucleation modification in Two-Step Slot-Die Coating toward efficient Large Scale Perovskite/Silicon tandems” exemplifies innovation in the scalable fabrication of tandem solar cells.

Prof. Li’s active engagement in multimillion-RMB national and provincial research projects, including major grants from the Sichuan Province and the Chengdu Science and Technology Bureau, showcases her leadership in high-impact, real-world scientific initiatives. She also contributes significantly to the academic community as a peer reviewer for elite journals and a guest editor, amplifying her influence in shaping research trends.

šŸŽ“ Education

Prof. Haimin Liā€™s academic journey is grounded in strong multidisciplinary foundations. She earned her Ph.D. in Materials Physics and Chemistry from Sichuan University (2008ā€“2011), preceded by an M.Sc. in Analytical Chemistry from Chengdu University of Technology (2003ā€“2006), and earlier, a diploma in Environmental Monitoring (1997ā€“2000) from the same institution. Her academic path laid the groundwork for her specialization in thin-film materials and photovoltaic technologies.

šŸ’¼ Experience

Prof. Li currently serves as an Associate Professor at Southwest Petroleum University (2020ā€“present), where she previously held academic positions as Lecturer and Associate Professor in the School of Materials Science and Engineering. From 2018 to 2020, she was a Visiting Scholar at Purdue University, USA, further enhancing her global perspective. Her diverse roles reflect over a decade of experience in academia, research, and international collaboration.

šŸ”¬ Research Interests On Advanced Materials Engineering

Prof. Liā€™s research interests center on functional thin-film materials, solar cell materials and devices, and especially perovskite solar cell technologies. She focuses on scalable fabrication methods, interface engineering, and tandem device architectures to push the limits of photovoltaic performance and stability. Her work aims to accelerate the commercialization of next-generation energy solutions, including flexible solar cells and perovskite/silicon tandem cells.

šŸ† Awards

Prof. Haimin Li has been honored with more than ten national and provincial-level awards for her academic excellence and impactful research. Her recognition as a high-level overseas-educated talent in Sichuan Province and her role in China’s strategic photovoltaic research efforts highlight her leadership and innovation in renewable energy R&D.

šŸ“š Publications

  1. Li, H., et al. Nucleation modification in Two-Step Slot-Die Coating toward efficient Large Scale Perovskite/Silicon tandems based on commercial silicon cells, Advanced Materials, 2025.
    Cited by upcoming studies on scalable perovskite fabrication.

  2. Wei, Y., Tang, Y., Li, H.*, et al. Decreased Hysteresis Benefited from Enhanced Lattice Oxygen and Promoted Band Alignment with Electron Transport Layer Modification in Perovskite Solar Cells, ACS Applied Materials & Interfaces, 2025, 17:11278ā€“11286.
    Widely cited in electron transport engineering research.

  3. Li, H.*, et al. Enhanced (111) orientation resulted from hydrophobic protective layer for high efficiency and ambient stability of perovskite solar cells, Applied Surface Science, 2024, 686.
    Cited by works on moisture-resistant perovskite devices.

  4. Tang, Y., Lei, Y., Li, H.*, et al. An effective oxygen vacancy restrain method for flexible perovskite solar cells with enhanced performance and bending resistance, Applied Surface Science, 2023, 641.
    Referenced in flexible photovoltaic development.

  5. Gong, X., Li, H.*, et al. Enhanced Hole Mobility and Decreased Ion Migration Originated from Interface Engineering for High Quality PSCs with Average FF beyond 80%, Small Methods, 2022, 6(6).
    Frequently cited in interface optimization strategies.

šŸ”š Conclusion

Prof. Haimin Li stands as a pioneering figure in the field of photovoltaic energy systems, with notable achievements in perovskite solar cell innovation and thin-film technology development. Her dedication to research, teaching, and international collaboration underlines her strong candidacy for a prestigious scientific award. Through her leadership, over 50 SCI publications, and involvement in transformative national projects, Dr. Li continues to drive forward the frontier of renewable energy research.