Shiva PrasadKollur | Materials Science | Best Researcher Award

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Assoc. Prof. Dr Shiva Prasad Kollur | Materials Science | Best Researcher Award

Associate Professor , Amrita Vishwa Vidyapeetham , India 

Dr. Shiva Prasad Kollur is an Associate Professor in the Department of Sciences at Amrita Vishwa Vidyapeetham, Mysuru Campus, India. With over a decade of experience in research and teaching, Dr. Kollur specializes in interdisciplinary fields of Chemistry, focusing on inorganic chemistry, nanomaterials, and bioinorganic chemistry. His research aims to explore the synthesis, characterization, and biological applications of metal complexes, green chemistry, and nanotechnology, with a particular emphasis on their therapeutic potentials. Dr. Kollur has published extensively in peer-reviewed journals and has been involved in various international collaborations. He has mentored over 45 Master’s students and currently supervises six Ph.D. candidates. His research contributions have earned him recognition in prestigious journals and numerous international awards.

Profile

Google Scholar

Strengths for the Award

  1. Interdisciplinary Research Expertise: Dr. Kollur has demonstrated significant expertise across multiple subfields of Chemistry, including Inorganic Chemistry, Nanotechnology, Green Chemistry, and Biological Applications. His work spans the synthesis and characterization of novel metal complexes, nanomaterials, and their biomedical applications, which is highly relevant to current global challenges in health and environmental sustainability.
  2. Impactful Research and High Citation Index: His research has garnered considerable attention, with several papers being highly cited. For instance, his work on flavonoids as antiviral agents in Saudi Journal of Biological Sciences (2021) and genistein as an anti-breast cancer agent have been cited over 80 times, highlighting the real-world impact of his findings. Furthermore, his diverse publications across prestigious journals like ACS Sensors, Journal of Organic Chemistry, and Spectrochimica Acta showcase the breadth and depth of his scientific contributions.
  3. Extensive Research Experience: Dr. Kollur’s academic career spans over a decade, with a significant portion of that time spent in interdisciplinary research, as well as a strong foundation in academia through his teaching roles at institutions like Amrita University and Manipal Academy of Higher Education. His postdoctoral fellowship (Dr. D. S. Kothari) and research fellowship underscore his commitment to advancing knowledge and contributing to academic excellence.
  4. Leadership in Research Supervision: As a supervisor, Dr. Kollur has been guiding six PhD candidates and over 45 Master’s students. This speaks to his ability to mentor and cultivate the next generation of scientists. His success in leading students in research, especially in advanced topics, enhances his reputation as a leader in the academic community.
  5. Global Research Collaborations: Dr. Kollur has collaborated with researchers from diverse geographical regions, including Europe, South America, North America, and Asia. His international exposure and ability to engage in cross-border research projects enhance the global relevance of his work. Notably, his visits to prominent institutions like the University of São Paulo, University of South Pacific, and National University of Singapore highlight his international standing.
  6. Peer Recognition and Scholarly Service: Dr. Kollur has an established role in the global academic community, as evidenced by his peer-review contributions for top journals in the field, such as Nature, RSC Advances, and ACS Sensors. This indicates that he is well-respected by his peers and trusted with maintaining the quality and integrity of the scientific literature.
  7. Event Organization and Contribution to Academia: His involvement in organizing three international and four national conferences, along with a national-level workshop, reflects his leadership skills and commitment to advancing scientific dialogue. These initiatives demonstrate his drive to foster collaboration and knowledge exchange within the scientific community.

Areas for Improvement

  1. Broader Public Outreach and Dissemination: While Dr. Kollur’s academic and research achievements are impressive, increasing the visibility of his work outside the academic community, especially to the general public, could enhance its broader impact. Initiatives such as public talks, interviews, and collaboration with industries could help translate his research into real-world applications and policy discussions.
  2. Research Focus on Emerging Areas: While his interdisciplinary work in nanotechnology and drug discovery is highly relevant, Dr. Kollur could consider diversifying his research into emerging and high-impact areas, such as AI-driven drug design, quantum chemistry for material science, or sustainable chemistry practices for climate change mitigation. This could position his research even more strategically for future funding and collaborations.
  3. Interdisciplinary Integration with Other Sciences: Although his research spans chemistry, biology, and material science, integrating computational tools or cross-disciplinary work with engineering or data science could open up new dimensions of research, particularly in areas like precision medicine, biomaterials, and environmental remediation.
  4. Collaboration with Industry: Strengthening collaborations with industries, particularly those in pharmaceuticals and materials science, could allow Dr. Kollur to translate his academic research into commercial applications. This could lead to impactful innovations that reach a wider audience and generate more public and private sector interest.

Education 

Dr. Shiva Prasad Kollur holds a Ph.D. in Chemistry from the University of Mysore (2011), where he conducted research in the areas of coordination chemistry and bioinorganic systems. He completed his M.Sc. in Chemistry from the same university in 2007, where his academic performance was distinguished. Dr. Kollur’s undergraduate studies were undertaken at JSS College, Mysuru, where he earned a B.Sc. in Chemistry in 2005. Throughout his educational journey, he demonstrated strong academic aptitude and a passion for scientific exploration. His postdoctoral work at the Indian Institute of Science, Bengaluru (2011–2013), under the prestigious Dr. D.S. Kothari Postdoctoral Fellowship, further honed his research skills, allowing him to delve into advanced inorganic and physical chemistry research. This solid academic foundation has enabled Dr. Kollur to pursue a distinguished career in teaching and research.

Experience 

Dr. Shiva Prasad Kollur’s academic career spans over a decade, with significant teaching and research roles at prestigious institutions. He is currently serving as an Associate Professor in the Department of Sciences at Amrita Vishwa Vidyapeetham, Mysuru Campus, where he has been since 2020. Prior to this, he worked as an Assistant Professor at the Manipal Centre for Natural Sciences, Manipal Academy of Higher Education (2015–2020), and at JSS College, Mysuru (2013–2015). Dr. Kollur also held a postdoctoral position at the Indian Institute of Science, Bengaluru, from 2011 to 2013. Over the years, he has guided more than 45 Master’s students and currently supervises six Ph.D. candidates in their research. Dr. Kollur has been actively involved in organizing international and national conferences, fostering scientific collaboration and knowledge exchange. His experience also extends to peer review and research collaborations with institutions across the globe.

Awards and Honors 

Dr. Shiva Prasad Kollur has been recognized for his excellence in research and academic contributions. He received the prestigious Dr. D.S. Kothari Post-Doctoral Fellowship (2011–2013), one of India’s top fellowships for promising researchers. In addition, he was awarded the Research Fellowship in Sciences for Meritorious Students (2009–2011), highlighting his early promise in scientific research. His research in bioinorganic chemistry, nanotechnology, and green chemistry has earned him numerous citations in top-tier journals, further establishing his academic reputation. Dr. Kollur’s work in the field of cancer therapeutics, antiviral agents, and green synthesis has attracted recognition at both national and international levels. He has also contributed significantly to the academic community by reviewing articles for high-impact journals like Nature, ACS Sensors, and RSC Advances. His efforts in organizing and leading international and national conferences have solidified his role as a leader in the academic field.

Research Focus 

Dr. Shiva Prasad Kollur’s research focuses on the synthesis, characterization, and biological applications of metal complexes, nanomaterials, and bioinorganic systems. His work has significant implications in the fields of cancer therapy, antiviral drug design, and environmental sustainability. He is particularly interested in green chemistry, exploring the use of plant extracts for the synthesis of nanoparticles and studying their therapeutic potential. His interdisciplinary approach spans chemistry, biology, and materials science, with a special emphasis on nanotechnology, drug discovery, and biomedical applications. Dr. Kollur’s work on metal-based drugs, including palladium and copper complexes, has been pivotal in understanding their antimicrobial, anticancer, and DNA-binding properties. Additionally, he is involved in computational studies for evaluating the antiviral properties of natural compounds like flavonoids against pathogens such as SARS-CoV-2. Dr. Kollur’s research aims to bridge the gap between chemistry and medicine, with an emphasis on sustainable and effective solutions for global health challenges.

Publications

  1. In silico evaluation of flavonoids as effective antiviral agents on the spike glycoprotein of SARS-CoV-2 🦠🔬 (Saudi Journal of Biological Sciences, 2021)
  2. Genistein: a potent anti-breast cancer agent 💊🌸 (Current Issues in Molecular Biology, 2021)
  3. Preparation, spectral characterization and biological applications of Schiff base ligand and its transition metal complexes 🧪💚 (Results in Chemistry, 2019)
  4. Palladium (II) complexes as biologically potent metallo-drugs: Synthesis, spectral characterization, DNA interaction studies and antibacterial activity 💡🧬 (Spectrochimica Acta, 2013)
  5. Aqueous Extract of Saraca indica Leaves in the Synthesis of Copper Oxide Nanoparticles: Finding a Way towards Going Green 🌱🔋 (Journal of Nanotechnology, 2017)
  6. Detection of Quorum Sensing Molecules and Biofilm Formation in Ralstonia solanacearum 🦠🧫 (Current Microbiology, 2016)
  7. Synthesis, characterization, antioxidant, antimicrobial, DNA binding and cleavage studies of mononuclear Cu (II) and Co (II) complexes ⚗️🧬 (European Journal of Chemistry, 2011)
  8. Oxovanadium complexes with bidentate N, O ligands: synthesis, characterization, DNA binding, nuclease activity and antimicrobial studies 🧪🦠 (Chemical Sciences Journal, 2011)
  9. Green synthesis of MnO2 nanorods using Phyllanthus amarus plant extract and their fluorescence studies 🌱🔬 (Green Processing and Synthesis, 2017)
  10. Biogenic Synthesis of NiO Nanoparticles Using Areca catechu Leaf Extract and Their Antidiabetic and Cytotoxic Effects 🌿💊 (Molecules, 2021)

Conclusion

Dr. Shiva Prasad Kollur is an accomplished and highly productive academic professional with a robust research portfolio, extensive mentoring experience, and leadership in global scientific collaborations. His interdisciplinary research in chemistry, especially in areas related to green chemistry, nanotechnology, and biomedical applications, positions him as a leader in his field. With his continued contribution to science through publications, teaching, and global collaborations, Dr. Kollur is undoubtedly a deserving candidate for the Best Researcher Award.Given his strong academic record, research impact, mentorship, and service to the scientific community, Dr. Kollur represents the qualities of an exceptional researcher and educator. With the opportunity to expand his outreach and explore new interdisciplinary collaborations, his future contributions could have an even greater impact on both academia and society.

Jingwei Tian | Composites for Engineering | Best Researcher Award

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Dr Jingwei Tian | Composites for Engineering | Best Researcher Award

Lecture ,  Harbin Institute of Technology , China

Dr. J Tian is a researcher and lecturer at the School of Civil Engineering, Harbin Institute of Technology, specializing in advanced composite materials. With a focus on corrosion resistance, wear performance, and environmental durability of materials, Tian’s work is integral to enhancing the lifespan of civil engineering infrastructure. Tian has authored multiple high-impact publications and contributed to several national research projects, particularly in carbon fiber reinforced polymers (CFRP), epoxy composites, and self-healing materials. His research integrates fundamental materials science with practical applications for the construction and manufacturing industries. Tian’s leadership in cutting-edge research projects, coupled with his passion for advancing material performance under extreme conditions, has garnered him recognition within the scientific community. His work contributes to improving the durability and sustainability of structural materials exposed to marine, alkaline, and high-temperature environments.

Profile

Strengths for the Award

  1. Extensive Academic and Research Experience:
    • The individual has a strong academic foundation, having completed both a Master’s and Doctoral degree at a top institution (Harbin Institute of Technology), under the guidance of renowned professors.
    • Their doctoral dissertation, focusing on the development and performance study of epoxy resin matrix composites with enhanced wear and corrosion resistance, indicates a deep understanding of advanced materials science.
  2. Leadership in Research Projects:
    • As a project leader for a funded research initiative (“Functional design and manipulating mechanism of damage self-healing of carbon fiber composites”), they show the ability to lead and manage significant research projects.
    • Participation in high-impact, government-funded projects, such as those from the National Natural Science Foundation and National Key Research and Development Program, is a testament to their ability to contribute to critical research in civil engineering and material science.
  3. Significant Contributions to Published Research:
    • The researcher has authored multiple influential publications, many of which have been cited numerous times, demonstrating their work’s broad recognition in the academic community.
    • Key papers on friction, wear, corrosion, and material aging in composite materials are contributing to advancing knowledge in these crucial areas.
    • Several of their papers, such as those on the “Reciprocating friction and wear performances of nanometer sized-TiO2 filled epoxy composites” and “Hydrothermal aging of carbon fiber reinforced polymer composites,” address critical aspects of material durability, which is a focal point of modern civil engineering research.
  4. Diverse Research Focus:
    • Their research spans various essential topics, including wear behavior, corrosion resistance, self-healing materials, aging mechanisms of composite materials in marine environments, and hygrothermal aging, demonstrating a versatile and comprehensive approach to material science.
    • Their focus on environment-friendly and high-performance coatings, along with attention to the durability of composite materials under real-world environmental conditions (e.g., marine environments, alkaline solutions), is highly relevant in modern engineering contexts, especially for sustainability and long-term infrastructure performance.
  5. Collaborative Engagement and Funding Success:
    • Involvement in numerous large-scale research projects with substantial funding (totaling millions of RMB) indicates a high level of collaboration and trust within the scientific community.
    • Being involved in cutting-edge research on carbon fiber reinforced polymer (CFRP) composites and thermoplastic composites showcases their importance in advancing civil engineering materials.

Areas for Improvement

  1. Broader Public Engagement and Dissemination:
    • While the researcher has an excellent track record in publishing in high-impact journals, further expansion into more applied platforms, industry collaborations, or public outreach initiatives could further amplify the societal impact of their research. This might include contributing to industrial standards or patenting innovative material solutions.
  2. Mentoring and Teaching:
    • Though the researcher has already taken on the role of lecturer and postdoctoral researcher, expanding their mentorship activities, particularly for undergraduate students or in interdisciplinary projects, could enhance their leadership profile. Increased involvement in guiding students or young researchers could foster the next generation of scholars in this field.
  3. Interdisciplinary Collaboration:
    • While the researcher is clearly a leader in civil engineering materials, there may be opportunities to extend their work through interdisciplinary research, particularly with environmental scientists, biologists, or chemists. Collaborating with professionals outside the civil engineering space could bring innovative solutions to materials science, particularly regarding environmental sustainability and climate adaptation.
  4. Commercialization of Research:
    • Further exploration of avenues to commercialize or patent their research findings—especially those related to self-healing composites and high-durability coatings—could transform academic contributions into practical, market-ready technologies.

Education 

Dr. J Tian completed his doctoral studies in Engineering Mechanics at the School of Civil Engineering, Harbin Institute of Technology, under the guidance of Prof. Guijun Xian, from 2019 to 2023. His dissertation focused on “Preparation and performance study of anti-wear and corrosion-resistant epoxy resin matrix composites.” Before that, he earned his Master’s degree in Structural Engineering from the same institution, where he worked under Prof. Jing Zhong. His master’s dissertation was titled “Preparation and corrosion resistance of graphene oxide composite coatings” (2017-2019). Tian’s strong academic background in materials science and structural engineering laid the foundation for his current work in improving the durability and functionality of composite materials, particularly in harsh environmental conditions. His studies also involved the innovative use of advanced materials, including nanocomposites, to address challenges faced in construction and civil engineering.

Experience 

Since January 2024, Dr. J Tian has been working as a lecturer and postdoctoral researcher at the School of Civil Engineering, Harbin Institute of Technology, under the mentorship of Prof. Huigang Xiao. His work involves both teaching and conducting high-level research on material durability, including the study of degradation and long-term service performance of composite materials used in construction. Prior to this, Tian contributed to several national research projects on composite materials, including the preparation, performance, and degradation of epoxy resin-based composites. He has participated in major national programs such as the National Natural Science Foundation of China (NSFC) and the National Key Research and Development Program of China. His focus areas include corrosion resistance, self-healing composites, and the evaluation of composite materials in marine and alkaline environments. Tian is also a leader in the research project on the self-healing mechanism of carbon fiber composites (2024–2026).

Research Focus 

Dr. J Tian’s research primarily focuses on developing advanced composite materials with enhanced durability and performance in extreme conditions. His key areas of expertise include corrosion resistance, wear performance, and the long-term service behavior of composite materials such as epoxy resins and carbon fiber-reinforced polymers (CFRP). Tian’s work on multi-filler reinforced epoxy composites and self-healing mechanisms aims to improve the longevity and resilience of materials used in construction, particularly in marine, alkaline, and high-temperature environments. His research also explores the impact of aging mechanisms, such as hydrothermal and hygrothermal aging, on the performance of thermoplastic and thermosetting composites. Tian’s projects, funded by national programs, seek to create sustainable and cost-effective solutions for the civil engineering industry, including the development of self-adhesive, superhydrophobic coatings and the evaluation of long-term properties of composite tendons. His interdisciplinary approach blends materials science with practical applications in infrastructure durability.

Publications 

  • Thin nacre-biomimetic coating with super-anticorrosion performance 🛡️🧪 (2018)
  • Reciprocating friction and wear performances of nanometer sized-TiO2 filled epoxy composites 🏗️🛠️ (2021)
  • Friction behaviors and wear mechanisms of multi-filler reinforced epoxy composites under dry and wet conditions ⚙️💧 (2023)
  • Mussel-inspired fabrication of an environment-friendly and self-adhesive superhydrophobic polydopamine coating 🦪🌱 (2023)
  • A layered superhydrophobic coating with excellent mechanical robustness and anti-corrosion performances 🌧️💪 (2022)
  • Mechanical, bonding and tribological performances of epoxy-based nanocomposite coatings with multiple fillers 🧰💡 (2022)
  • Long-term properties evolution and life prediction of glass fiber reinforced thermoplastic bending bars exposed in concrete alkaline environment 🔧🏝️ (2024)
  • Hydrothermal ageing of carbon fiber reinforced polymer composites applied for construction: A review 🌊🧑‍🔬 (2023)
  • Comparative study of durability behaviors of thermoplastic polypropylene and thermosetting epoxy 🔬🌡️ (2022)
  • Hygrothermal aging behavior and mechanism of multi-filler reinforced epoxy composites for steel structure coatings 🏗️💨 (2023)
  • Wrinkles with changing orientation and complexity in a single piece of thin film 🧑‍🔬🎥 (2019)
  • Durability of glass fiber reinforced thermoplastic polypropylene composite bars under seawater and sea sand concrete environment 🌊🏝️ (2024)
  • Mechanical properties evaluation of glass fiber reinforced thermoplastic composite plate under combined bending loading and water immersion 💧🔨 (2024)
  • Hydrothermal aging of carbon fiber reinforced polymer rods intended for cable applications in civil engineering ⚡🌫️ (2023)
  • Design, preparation, and mechanical properties of glass fiber reinforced thermoplastic self-anchor plate cable exposed in alkaline solution environment 🔧🌍 (2024)
  • Effect of hygrothermal aging on the friction behavior and wear mechanism of the multi-filler reinforced epoxy composites for coated steel 🛠️🔥 (2024)
  • Water absorption and property evolution of epoxy resin under hygrothermal environment 💧🧪 (2024)
  • Effect of fiber surface treatment with silane coupling agents and carbon nanotubes on mechanical properties of carbon fiber reinforced polyamide 6 composites 🧬⚙️ (2024)
  • Design of novel glass fiber reinforced polypropylene cable-anchor component and its long-term properties exposed in alkaline solution 💡🌊 (2024)
  • Hygrothermal aging behavior of C/GFRP hybrid rod with bundle-by-bundle dispersion 🧪🌱 (2024)

Conclusion

This individual is a highly accomplished and promising researcher, with a strong body of work in advanced material design, durability studies, and composite material innovations. Their work on composite coatings, self-healing materials, and corrosion resistance is especially important given the growing demand for more durable, sustainable infrastructure materials. They have shown leadership in managing substantial research projects and have demonstrated the ability to collaborate effectively with national and international research networks.Given their impressive list of published works, their involvement in high-profile national research programs, and their ability to secure significant research funding, they are undoubtedly a strong candidate for the Best Researcher Award. Their work not only contributes to the advancement of material science but also has the potential for significant real-world impact in construction, manufacturing, and infrastructure longevity.To maximize their potential and impact, I would encourage further development in mentoring, public outreach, and expanding interdisciplinary research collaborations. Nevertheless, their achievements thus far place them in an excellent position for this recognition.