KRISHNA DIXIT | tissue engineering | Best Researcher Award

Published-on by Indian Scientist

Mrs. KRISHNA DIXIT | tissue engineering | Best Researcher Award

IIT Kharagpur, India

Author Profile

Early Academic Pursuits 🎓✨

Krishna Dixit’s academic journey exemplifies a relentless pursuit of excellence in biotechnology and biomedical sciences. He completed his Bachelor of Technology (B.Tech.) in Biotechnology from the Raipur Institute of Technology and Entrepreneur (RITEE), Chhattisgarh, in 2014, achieving an exceptional CGPA of 9.85 out of 10. His consistent academic brilliance laid a strong foundation for advanced studies.

Krishna pursued his Master of Technology (M.Tech.) in Biotechnology & Biomedical Engineering at the prestigious National Institute of Technology (NIT), Rourkela, from 2014 to 2016, securing a remarkable CGPA of 8.99 out of 10. His deep interest in biotechnology and biomedical innovation drove his active participation in various research projects, cultivating a solid grasp of cutting-edge techniques and concepts.

Currently, Krishna has submitted his Doctor of Philosophy (Ph.D.) thesis at the Indian Institute of Technology (IIT), Kharagpur, one of India’s premier institutions. His thesis, titled “Understanding keratin-based ECM analogue in wound milieu towards expediting healing application”, explores revolutionary approaches to enhancing wound healing through biomaterials.

Professional Endeavors 🌟🔬

Krishna Dixit has developed a versatile skill set and a strong research portfolio. His professional journey includes:

  • Technical Expertise: Krishna has acquired proficiency in advanced molecular biology techniques, including nucleic acid isolation, PCR, and gel electrophoresis. His hands-on experience in cell culture techniques, from isolating primary cells to maintaining them, reflects his meticulous lab skills.
  • Animal Models and Immunology: He has demonstrated expertise in designing and establishing diseased animal models for research. Additionally, Krishna excels in immunological techniques such as Flow Cytometry and ELISA, which are integral to understanding immune responses.
  • Spectroscopy Techniques: With knowledge of FTIR, Raman Spectroscopy, and CD Spectroscopy, Krishna’s contributions extend to the characterization of biomaterials at a molecular level.
  • Histological and Imaging Proficiency: His efficiency in histological techniques, combined with expertise in handling bright-field and fluorescence microscopy, reflects a well-rounded ability in tissue analysis and imaging.

Contributions and Research Focus 🔍🧪

Krishna’s primary research revolves around biomaterial characterization, tissue engineering, and immunology. His Ph.D. work focuses on creating keratin-based extracellular matrix (ECM) analogues to expedite wound healing. This innovative approach holds promise for clinical applications, especially in addressing complex wound healing challenges. His dedication to translating research into real-world solutions underscores his commitment to advancing healthcare technology.

Key areas of contribution include:

  • Exploring keratin-based biomaterials to develop effective wound healing applications.
  • Designing biomimetic platforms that replicate natural tissue environments.
  • Investigating immune responses to engineered tissues, ensuring compatibility and effectiveness.

Accolades and Recognition 🏆🌟

Krishna’s academic and professional journey has been marked by consistent achievements:

  • Graduating with top-tier CGPAs in both undergraduate and postgraduate studies.
  • Gaining admission to IIT Kharagpur, a testament to his academic prowess and research potential.
  • Recognition within academic circles for his technical expertise and innovative approach to research.

Impact and Influence 🌐💡

Krishna’s work has the potential to redefine the field of wound healing through biomaterials. His research addresses critical gaps in regenerative medicine, offering solutions that are both innovative and practical. His technical expertise ensures the successful application of these solutions across clinical and research settings.

Through his research, Krishna inspires the next generation of scientists, bridging the gap between theoretical knowledge and its practical application in biotechnology and biomedical engineering.

Legacy and Future Contributions 🔮🌱

Krishna Dixit’s journey is far from over. His vision for the future includes:

  • Expanding the applications of keratin-based ECM analogues to other areas of regenerative medicine.
  • Mentoring young researchers in advanced techniques, fostering innovation and collaboration.
  • Contributing to global scientific knowledge through impactful publications and collaborations.

Krishna’s dedication to biomaterials, tissue engineering, and immunology ensures his continued impact on the scientific community. His journey stands as an inspiring example of how passion, expertise, and determination can lead to transformative contributions to science and society. 🌟

Citations

A total of 52 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations        52
  • h-index          11
  • i10-index       05

Notable Publications 

  • Investigating the Effect of Polypyrrole-Gelatin/Silk Fibroin Hydrogel Mediated Pulsed Electrical Stimulation for Skin Regeneration
    • Authors: Kulkarni, G., Guha Ray, P., Sunka, K.C., Dhara, S., Das, S.
    • Journal: ACS Applied Materials and Interfaces
    • Year: 2024.
  • Thermoresponsive Keratin-Methylcellulose Self-Healing Injectable Hydrogel Accelerating Full-Thickness Wound Healing by Promoting Rapid Epithelialization
    • Authors: Dixit, K., Bora, H., Chakrabarti, R., Mukherjee, G., Dhara, S.
    • Journal: International Journal of Biological Macromolecules
    • Year: 2024.
  • Introduction of 3D Printing and Different Bioprinting Methods
    • Authors: Biswas, A., Saha, B., Bora, H., Dixit, K., Dhara, S.
    • Journal: 3D Bioprinting from Lab to Industry (Book Chapter)
    • Year: 2024.
  • Human Placenta/Umbilical Cord Derivatives in Regenerative Medicine – Prospects and Challenges
    • Authors: Biswas, A., Rajasekaran, R., Saha, B., Ojha, A.K., Dhara, S.
    • Journal: Biomaterials Science
    • Year: 2023.
  • Biomaterial Mediated Immunomodulation: An Interplay of Material Environment Interaction for Ameliorating Wound Regeneration
    • Authors: Dixit, K., Bora, H., Lakshmi Parimi, J., Mukherjee, G., Dhara, S.
    • Journal: Journal of Biomaterials Applications
    • Year: 2023.

Konduru Ashok Kumar Raju | Biomaterials | Editorial Board Member

Published-on by Indian Scientist

Dr. Konduru Ashok Kumar Raju | Biomaterials | Editorial Board Member

National Institute of Technology Rourkela | India

Dr. Konduru Ashok Kumar Raju is a researcher in biomaterials whose work integrates mechanical engineering, materials science, and biomedical innovation. He holds a strong academic foundation with bachelor's and master's degrees in mechanical engineering, followed by advanced research training in biomaterials with a focus on functionalized coatings for medical implants. With professional experience as an educator and researcher in mechanical engineering departments, he has contributed to CAD/CAM, heat transfer, implant surface engineering, and computational modeling. His scholarly output includes studies on corrosion-resistant Ti6Al4V coatings, biomaterial characterization, antibacterial surface modifications, biodiesel engine performance, and finite element modeling of biological tissues. Demonstrating a multidisciplinary research profile, he has served as a scientific peer reviewer for leading publishers, strengthening the integrity of scholarly communication. His work has earned notable recognitions, including national engineering awards and fellowships supporting scientific merit. With 102 citations, an h-index of 6, and an i10-index of 5, his publications continue to influence advancements in biomaterial coatings and medical implant technologies. His ongoing research aims to enhance implant biocompatibility, integrate antibacterial strategies, and develop novel materials for regenerative and tissue engineering applications. His continued contributions are shaping the future of biomaterials research, healthcare innovation, and academic excellence.

Professional Profiles: Scholar |Scopus |Linkedin |Researchgate

Featured Publications

Raju, K. A. K., & Biswas, A. (2023). Corrosion behavior of self-organized TiO₂ nanotubular arrays grown on Ti6Al4V for biomedical applications. Materials Chemistry and Physics, 305, 128011.

Raju, K. A. K., & Biswas, A. (2025). Surface modifications and coatings to improve osseointegration and antimicrobial activity on titanium surfaces: A statistical review over the last decade. Journal of Orthopaedics.

Raju, K. A. K., & Biswas, A. (2024). Structural and corrosion analysis of copper/chitosan coating on nanotubular TiO₂/Ti6Al4V implant surface. Surface and Coatings Technology, 482, 130673.

Raju, K. A. K., & Biswas, A. (2024). Evaluation of structural and corrosion behavior of chitosan/silver coating on Ti6Al4V/TiO₂ nanotubular surface. Surface and Coatings Technology, 476, 130262.

Raju, K. A. K., Reddy, M. V. K., & Nagaraja, A. (2014). Design optimization of cross flow heat exchanger. International Journal of Engineering Research & Technology (IJERT), 3(2), 26–33.

Raju, K. A. K., Biswas, A., Singh, A. K., Mahton, Y., & Saha, P. (2024). Enhanced corrosion resistance of 58S bioglass integrated TiO₂ nanotubular arrays. Next Nanotechnology, 6, 100070.