Chandrahasya Nandanwar | Materials Science | Best Researcher Award

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Mr. Chandrahasya Nandanwar | Materials Science | Best Researcher Award

Senior Reserach Scholar at Nevjabai Hitkarini College, Bramhapuri, India

 

Mr. Chandrahasya Motilal Nandanwar is a dedicated researcher specializing in photoluminescence and luminescence physics. With a Ph.D. from Gondwana University, he has made significant contributions to materials science, particularly in phosphors for solid-state lighting and white LEDs. His research excellence is evident through 32 international journal publications, multiple patents—including a granted South African patent—and a published book chapter. He has received prestigious fellowships, including the Junior and Senior Research Fellowships under MAHAJYOTI. Additionally, he serves as a reviewer for reputed international journals such as Ceramics International and Journal of Optics. With extensive teaching experience at various institutions, he has also developed expertise in instrumentation, particularly with fluorescence spectrophotometers. His groundbreaking research and commitment to academia make him a strong contender for the Best Researcher Award, recognizing his outstanding contributions to the field of luminescent materials and photonic applications.

Professional Profile 

Education

Mr. Chandrahasya Motilal Nandanwar has a strong academic background in physics, specializing in photoluminescence and luminescent materials. He earned his Ph.D. in Physics from Gondwana University, focusing on the development of advanced phosphor materials for solid-state lighting and white LEDs. Before his doctoral studies, he completed his Master of Science (M.Sc.) in Physics, where he built a solid foundation in materials science, optics, and spectroscopy. His academic journey was marked by excellence, securing prestigious fellowships such as the Junior Research Fellowship (JRF) and Senior Research Fellowship (SRF) under the MAHAJYOTI scheme. With a keen interest in experimental physics, he has gained extensive experience in fluorescence spectrophotometry and other analytical techniques. His education has been instrumental in shaping his research expertise, leading to multiple international publications, patents, and contributions to photonic materials. His academic achievements reflect his commitment to advancing scientific knowledge in luminescence physics.

Professional Experience

Mr. Chandrahasya Motilal Nandanwar has extensive professional experience in the field of physics, particularly in luminescent materials and photonics. As a dedicated researcher, he has contributed significantly to the development of phosphor materials for solid-state lighting and white LEDs. He has held prestigious research fellowships, including Junior Research Fellowship (JRF) and Senior Research Fellowship (SRF) under the MAHAJYOTI scheme, allowing him to work on cutting-edge projects related to photoluminescence. His expertise spans fluorescence spectrophotometry, material synthesis, and characterization techniques, making him a valuable asset in experimental physics. Throughout his career, he has authored multiple international research papers, filed patents, and participated in scientific conferences, showcasing his commitment to innovation. His professional journey reflects a strong dedication to advancing luminescent materials for energy-efficient lighting solutions. With a passion for research and development, Mr. Nandanwar continues to contribute to the scientific community through his work in photonic and optical materials.

Research Interest

Mr. Chandrahasya Motilal Nandanwar’s research interests lie in the field of luminescent materials, photonics, and advanced optical technologies. His work primarily focuses on the synthesis, characterization, and application of phosphor materials for energy-efficient lighting and display technologies. He is particularly interested in photoluminescence, thermoluminescence, and persistent luminescence properties of rare-earth-doped materials. His research extends to the development of novel nanophosphors for applications in LEDs, bio-imaging, and security markers. Additionally, he explores the role of defect engineering in enhancing luminescence efficiency and stability. His studies also include upconversion and downconversion luminescence mechanisms for next-generation optical devices. He is passionate about developing eco-friendly and cost-effective luminescent materials that contribute to sustainable energy solutions. Through his research, he aims to bridge the gap between fundamental science and practical applications, advancing technologies in lighting, display panels, and photonic sensors while mentoring young researchers in material science and optical physics.

Award and Honor

Mr. Chandrahasya Motilal Nandanwar has received several prestigious awards and honors in recognition of his contributions to the field of luminescent materials and photonics. As a distinguished researcher, he was awarded the Junior Research Fellowship (JRF) and Senior Research Fellowship (SRF) under the MAHAJYOTI scheme, which supported his advanced studies and research in photoluminescence. His groundbreaking work in the synthesis and characterization of phosphor materials for energy-efficient lighting has earned him accolades at national and international conferences. He has been honored for his outstanding research presentations and publications in reputed scientific journals. Additionally, his contributions to the development of innovative luminescent materials have led to patent filings, further solidifying his reputation in the scientific community. His dedication to advancing optical and photonic technologies has made him a respected figure among peers, and his achievements continue to inspire aspiring researchers in the field of physics and material science.

Research Skill

Mr. Chandrahasya Motilal Nandanwar possesses a diverse set of research skills in the field of luminescent materials and photonics. He is proficient in the synthesis and characterization of phosphor materials, utilizing techniques such as solid-state reaction, sol-gel, and hydrothermal methods. His expertise extends to advanced spectroscopic techniques, including photoluminescence (PL), thermoluminescence (TL), and X-ray diffraction (XRD) analysis, enabling him to investigate the structural and optical properties of materials. He is skilled in defect engineering to enhance luminescence efficiency and optimize material properties for practical applications. Additionally, he has experience with computational modeling and data analysis for understanding luminescence mechanisms. His ability to design experiments, analyze complex datasets, and interpret results makes him an accomplished researcher. He is also adept at writing research papers, grant proposals, and patents, demonstrating his strong scientific communication skills. His research acumen contributes to advancements in energy-efficient lighting and display technologies.

Conclusion

Mr. Chandrahasya Motilal Nandanwar has demonstrated exceptional research capabilities in the field of luminescence, backed by strong academic qualifications, numerous publications, patents, and recognized reviewer roles. His contributions to the field, particularly in photoluminescence and white LED phosphors, make him a strong candidate for the Best Researcher Award.

While he already has an impressive portfolio, focusing on independent research, international collaborations, and real-world applications could further elevate his profile. Nevertheless, his achievements make him highly deserving of this recognition.

Publications Top Noted

  • Photoluminescence Properties of Novel Ca₃Y₂B₄O₁₂:Eu³⁺ and Dy³⁺ Phosphors for Solid‐State Lighting Prepared by Combustion Method

    • Authors: C. M. Nandanwar, N. S. Kokode, A. N. Yerpude, A. M. Uke
    • Year: 2025
    • DOI: 10.1002/bio.70126

  • Photoluminescence Studies of Sr₃P₄O₁₃:Eu³⁺ Phosphor Prepared by Wet Chemical Method: Structural Properties, Charge Compensation via Alkali Metal Ions and Judd-Ofelt Analysis

  • Photoluminescence Characteristics of YCa₄O(BO₃)₃:Dy³⁺ Phosphor for w-LEDs Prepared by Combustion Techniques

  • Photoluminescence Properties of Novel NaPb₄(PO₄)₃:Dy³⁺ Phosphors for n-UV Solid-State Lighting Prepared by Combustion Synthesis

    • Authors: C. M. Nandanwar, N. S. Kokode, D. M. Parshuramkar, A. N. Yerpude, S. J. Dhoble
    • Year: 2024
    • DOI: 10.1007/s12596-023-01595-y

  • Wet Chemical Synthesis and Photoluminescence Properties of NaSrPO₄:Dy³⁺ and NaSrPO₄:Eu³⁺ Phosphors for Near UV-Based w-LEDs

  • Synthesis and Photoluminescence Properties of AlPO₄:Ln (Ln = Dy³⁺, Eu³⁺ and Sm³⁺) Phosphors for Near UV-Based White LEDs Application

  • Photoluminescence Characteristics of Novel Sm³⁺ Ions-Doped La₁.₄Al₂₂.₆O₃₆ Phosphor for n-UV w-LED

    • Authors: Ramkrushna M. Yerojwar, Namdeo S. Kokode, Chandrahasya M. Nandanwar, Dipti K. Ingole, Suchita T. Peddiwar
    • Year: 2023
    • DOI: 10.1002/bio.4533

  • Synthesis and Photoluminescence Characteristics of Ba₂Ca(PO₄)₄:Dy³⁺ Phosphors for n-UV Based Solid-State Lighting

  • Luminescence Properties of LaPO₄:RE (RE = Dy³⁺, Eu³⁺, Sm³⁺) Orthophosphate Phosphor for n-UV Solid-State Lighting Prepared by Wet Chemical Synthesis

Fan Zhao | Materials | Best Researcher Award

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Prof. Fan Zhao | Materials | Best Researcher Award

Professor at Donghua University, China

Fan Zhao, a Professor at Donghua University, is an accomplished researcher with a strong focus on bioresorbable medical devices, textiles, and regenerative medicine. Having held prestigious postdoctoral roles and won recognition through national talent programs, Zhao has demonstrated expertise through significant research funding, international collaborations, numerous high-impact publications, and patents. His work bridges cutting-edge materials science and medical applications, particularly in developing innovative devices for wound healing, drug delivery, and bioresorbable stents.

Professional Profile

Education

Fan Zhao’s educational journey began with a Bachelor’s degree in textiles from Dalian Polytechnic University (2009-2013), where he built a strong foundation in textile engineering. He continued to pursue his academic passion, earning a Ph.D. in textiles at Donghua University (2013-2019), where he specialized in biomedical applications and medical textiles. As part of his doctoral training, Zhao was a visiting scholar at North Carolina State University (2017-2018), an experience that broadened his research expertise and exposed him to leading-edge advancements in textile and materials science. This diverse academic background provided him with a unique perspective, enabling him to integrate textile engineering with regenerative medicine and biomaterial sciences. His educational achievements laid a solid groundwork for his future research contributions, as Zhao continuously explores the intersection of materials science and medical technology to develop groundbreaking biomedical devices.

Experience

Fan Zhao has a rich professional background that reflects his interdisciplinary expertise in textiles and biomedical engineering. Since 2023, he has served as a Professor at Donghua University’s College of Textiles, where he contributes to research, teaching, and innovation. His career also includes a notable postdoctoral position (2019-2022) at the University of Nebraska Medical Center’s Regenerative Medicine department, where he focused on advanced biomaterials for medical applications. In this role, he worked on pioneering projects related to hydrogel-based drug delivery systems and bioresorbable devices, establishing his proficiency in both theoretical research and practical applications. Zhao’s experience is further complemented by his collaborative projects with institutions in the U.S., where he developed an international perspective on healthcare technology and textile applications. His professional journey illustrates a commitment to advancing healthcare through innovative research in textile engineering and biomedical device development.

Research Focus

Fan Zhao’s research is centered on developing textile-based biomedical devices that merge advanced materials science with medical applications. His primary focus is on bioresorbable cardiovascular stents, wound-healing materials, and drug delivery systems designed for high biocompatibility and controlled release. Zhao’s interdisciplinary approach leverages textiles for biomedical uses, creating self-powered, bioresorbable devices that accelerate tissue regeneration and healing processes. Notably, his work on hydrogel-based electrical stimulation systems offers new avenues for preserving muscle function in medical treatments. Funded by high-impact grants from organizations like the National Natural Science

Awards and Honors

Fan Zhao’s exceptional research contributions have been recognized through several prestigious honors. In 2023, he was selected for China’s National Postdoctoral Talent Introduction Program by the Ministry of Education, a recognition of his potential to contribute significantly to scientific advancement. The same year, he was chosen for the Shanghai Leading Talents (Overseas) Program, acknowledging his expertise and impact on the international stage. These awards highlight Zhao’s dedication and innovation in combining textiles with regenerative medicine and biomaterials, areas crucial to modern healthcare solutions. His research has not only earned competitive funding but also the respect of both national and international scientific communities. These recognitions reflect his position as a promising leader in textile-based biomedical devices, an area where he is contributing significantly through pioneering projects and publications.

Conclusion

Fan Zhao is a well-rounded candidate for the Best Researcher Award. His impressive academic accomplishments, extensive funding achievements, interdisciplinary expertise, and innovation through patents demonstrate a high standard of research excellence. Zhao’s focus on applying materials science to real-world medical issues through bioresorbable devices and wound treatment systems makes his work both impactful and innovative. By enhancing his leadership in collaborative projects, visibility in global research communities, and engagement in mentorship, Zhao could further solidify his standing as an influential figure in his field. Overall, he is a strong contender for the award, with the potential to make substantial contributions to medical materials science and bioengineering in the future.

Publications Top Noted

Hygroscopic Cooling (H-Cool) Fabric with Highly Efficient Sweat Evaporation and Heat Dissipation for Personal Thermo-Moisture Management

Authors: Li, Z., Guo, N., Zhu, Y., Zhang, P., Zhao, F.

Year: 2024

Journal: International Journal of Biological Macromolecules

Citations: 1

A Highly Efficacious Electrical Biofilm Treatment System for Combating Chronic Wound Bacterial Infections

Authors: Zhao, F., Su, Y., Wang, J., Xie, J., Zhao, S.

Year: 2023

Journal: Advanced Materials

Citations: 34

A Hydrogel Ionic Circuit Based High-Intensity Iontophoresis Device for Intraocular Macromolecule and Nanoparticle Delivery

Authors: Zhao, F., Fan, S., Ghate, D., Bronich, T.K., Zhao, S.

Year: 2022

Journal: Advanced Materials

Citations: 23

Development of a Polycaprolactone/Poly(p-Dioxanone) Bioresorbable Stent with Mechanically Self-Reinforced Structure for Congenital Heart Disease Treatment

Authors: Zhao, F., Sun, J., Xue, W., Sun, K., Wang, L.

Year: 2021

Journal: Bioactive Materials

Citations: 24

Customized and In Situ Fenestrated Stent-Grafts: A Reinforced Poly-ε-Caprolactone Branch Cuff Designed to Prevent Type III Endoleaks and Enhance Hemodynamics

Authors: Wang, F., Li, C., Guidoin, R., Wang, L., Nutley, M.

Year: 2021

Journal: Medicine in Novel Technology and Devices

Citations: 3

Oversized Composite Braided Biodegradable Stents with Post-Dilatation for Pediatric Applications: Mid-Term Results of a Porcine Study

Authors: Sun, J., Sun, K., Bai, K., Hong, N., Hu, H.

Year: 2020

Journal: Biomaterials Science

Citations: 10

Iodinated Poly(p-Dioxanone) as a Facile Platform for X-Ray Imaging of Resorbable Implantable Medical Devices

Authors: Zhao, F., Xu, H., Xue, W., Li, L., Wang, L.

Year: 2020

Journal: Journal of Biomaterials Applications

Citations: 6

A Sulfonated PEEK/PCL Composite Nanofibrous Membrane for Periosteum Tissue Engineering Application

Authors: Zhao, F., Hu, S., Wang, F., Wang, L.

Year: 2019

Journal: Journal of Materials Science

Citations: 17

An Efficient Surface Modification Strategy Improving Endothelialization with Polydopamine Nanoparticles and REDV Peptides for Stent-Grafts

Authors: Xue, W., Nasr, S.H., Guan, G., Qian, C., Wang, L.

Year: 2019

Journal: ACS Applied Bio Materials

Citations: 7

Effect of Dynamic and Static Loading During In Vitro Degradation of a Braided Composite Bioresorbable Cardiovascular Stent

Authors: Zhao, F., Wang, F., King, M.W., Wang, L.

Year: 2019

Journal: Materials Letters

Citations: 1