Nupur Kohli | Biomedical Engineering | Best Researcher Award

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Assist. Prof. Dr. Nupur Kohli | Biomedical Engineering | Best Researcher Award 

Assistant professor | Khalifa University | United Arab Emirates

Dr. Nupur Kohli is a biomedical scientist and academic whose career spans regenerative medicine, stem cell biology, biomaterials, and translational musculoskeletal research, with a strong commitment to advancing innovative therapies and bridging laboratory discoveries with real-world clinical applications. She serves as an Assistant Professor of Biomedical Engineering at Khalifa University, where she leads a regenerative therapies laboratory focused on developing stem cell–based and bioengineered solutions for complex musculoskeletal conditions while contributing to curriculum development and departmental growth. Her earlier roles across leading institutions in the United Kingdom, Japan, and the United Arab Emirates include pioneering sterile tissue culture facilities, developing bioreactor systems for implant evaluation, establishing angiogenesis testing laboratories, and inventing a patented extracellular matrix biomaterial currently progressing through pre-clinical testing. Her scholarship encompasses high-impact publications in internationally reputed journals, book chapters, invited talks, and peer-review contributions, reflecting a sustained record of scientific leadership and innovation. She has cultivated collaborations with globally recognized institutions, including Imperial College London, Karolinska Institute, and multidisciplinary teams of clinicians and engineers, enabling cross-sectoral research with strong translational relevance. Her work has also contributed to identifying molecular biomarkers, optimizing scaffold-based regeneration strategies, and advancing multi-omics–driven approaches to autoimmune and inflammatory disorders. Beyond academia, she actively supports capacity building through mentoring, developing internship programs, strengthening student engagement initiatives, and fostering entrepreneurial activities, including founding a biotechnology start-up focused on regenerative technologies. Her contributions have been recognized through competitive awards, invited presentations, professional memberships, and affiliations with international societies dedicated to stem cell science and biomedical engineering. Dr. Kohli’s research and innovation efforts continue to influence regenerative medicine, personalized therapies, and biomaterial development, demonstrating a profound societal impact through advancing scientific knowledge, improving clinical pathways, and supporting the future workforce in health and biomedical sciences. She has 614 citations from 25 documents with an h-index of 13.

Profiles: Google Scholar | Scopus

Featured Publications

1. Kohli, N., Ho, S., Brown, S. J., Sawadkar, P., Sharma, V., Snow, M., & colleagues. (2018). Bone remodelling in vitro: Where are we headed? A review on the current understanding of physiological bone remodelling and inflammation and the strategies for testing.

2. Kohli, N., Stoddart, J. C., & van Arkel, R. J. (2021). The limit of tolerable micromotion for implant osseointegration: A systematic review.

3. Kohli, N., Wright, K. T., Sammons, R. L., Jeys, L., Snow, M., & Johnson, W. E. B. (2015). An in vitro comparison of the incorporation, growth, and chondrogenic potential of human bone marrow versus adipose tissue mesenchymal stem cells in scaffolds.

4. Sawadkar, P., Mohanakrishnan, J., Rajasekar, P., Rahmani, B., Kohli, N., & colleagues. (2020). A synergistic relationship between polycaprolactone and natural polymers enhances the physical properties and biological activity of scaffolds.

5. Kohli, N., Sharma, V., Orera, A., Sawadkar, P., Owji, N., Frost, O. G., Bailey, R. J., & colleagues. (2021). Pro-angiogenic and osteogenic composite scaffolds of fibrin, alginate and calcium phosphate for bone tissue engineering.

Babak Akbari | Biomedical Engineering | Best Researcher Award

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Assoc. Prof. Dr. Babak Akbari | Biomedical Engineering | Best Researcher Award 

Babak Akbari has established himself as a dedicated researcher with significant contributions to the fields of biomaterials, tissue engineering, and medical technology. His work has advanced knowledge in areas such as bone and cartilage regeneration, scaffold design, nanocomposites, dental materials, and controlled drug delivery systems, reflecting both scientific depth and interdisciplinary strength. By publishing widely and co-authoring specialized books, he has played an important role in bridging material sciences with health applications. His research demonstrates innovation in creating functional biomaterials that address critical challenges in orthopedics, dentistry, and regenerative medicine. While his contributions are noteworthy, expanding global collaborations, enhancing translational research towards clinical applications, and engaging with emerging domains like personalized medicine and sustainable biomaterials could further increase his impact. Overall, his body of work reflects excellence and commitment, making him a strong and deserving candidate for recognition through the Best Researcher Award.

Professional Profile

Google Scholar | Scopus Profile 

Education

Babak Akbari has built a strong educational foundation in the field of materials science and engineering, with a focus on its applications in medical technology and tissue engineering. His academic journey has been marked by progressive specialization in areas such as materials identification, selection, and advanced processing, which provided him with the technical knowledge required to explore innovative solutions for biomedical challenges. Over the course of his studies, he developed expertise in understanding the structural and functional aspects of materials, which later became central to his research on biomaterials, scaffolds, and nanocomposites for tissue regeneration. This educational background has equipped him with the skills to bridge engineering principles with health sciences, enabling him to contribute effectively to interdisciplinary research. By combining strong theoretical knowledge with practical problem-solving approaches, he has positioned himself as a capable academic who translates materials engineering into meaningful healthcare applications.

Experience

Babak Akbari has gained extensive professional experience through his academic and research career, particularly in the fields of medical technology, biomaterials, and tissue engineering. His work reflects a balance of teaching, mentoring, and conducting advanced research that bridges material sciences with biomedical applications. He has actively contributed to the development of innovative scaffolds, nanocomposites, and functional biomaterials designed for applications in bone and cartilage regeneration, dental health, and controlled drug delivery systems. His professional experience also includes collaborative projects that integrate engineering with medical sciences, resulting in interdisciplinary advancements published in national and international journals as well as contributions to specialized scientific books. Through his professional roles, he has consistently emphasized both knowledge creation and knowledge transfer, ensuring that his expertise supports the growth of future scientists while addressing pressing healthcare challenges. His career demonstrates a clear commitment to advancing science with real-world medical applications.

Research Interest

Babak Akbari’s research interests lie at the intersection of materials science, biomedical engineering, and health technology, with a particular focus on developing innovative solutions for regenerative medicine and tissue engineering. He is deeply engaged in exploring biomaterials such as nanocomposites, scaffolds, and functionalized polymers to support bone and cartilage regeneration, dental applications, and advanced drug delivery systems. His work also emphasizes the design of bioinspired and biocompatible materials that can mimic natural tissue environments, thereby enhancing cell growth and healing outcomes. In addition, he is interested in surface modification techniques, controlled drug release, and the integration of nanotechnology to improve the performance of medical devices and implants. By addressing both fundamental scientific questions and practical healthcare challenges, his research aims to create sustainable, effective, and clinically relevant materials that can transform medical treatments and improve patient outcomes across a wide range of applications.

Award and Honor

Babak Akbari has earned recognition for his valuable contributions to the advancement of biomaterials, tissue engineering, and medical technology through a combination of academic achievements, research excellence, and scholarly publications. His role as a co-author of internationally published scientific books and his contributions to highly regarded journals have positioned him as a respected figure within the scientific community. The impact of his work on scaffold development, regenerative medicine, and biomedical applications reflects innovation and dedication, which has been acknowledged by peers and collaborators in interdisciplinary research networks. His consistent efforts to bridge material sciences with clinical applications demonstrate the kind of impactful research that attracts appreciation and recognition at both national and international levels. These honors highlight his ability to address complex healthcare challenges through scientific inquiry, underscoring his standing as a committed researcher whose work continues to contribute meaningfully to the progress of medical and life sciences.

Research Skill

Babak Akbari possesses strong research skills that span across materials science, biomedical engineering, and tissue engineering, enabling him to contribute effectively to interdisciplinary health-related innovations. He has expertise in designing and fabricating scaffolds, nanocomposites, and biomaterials with tailored properties for applications in bone regeneration, cartilage repair, and dental treatments. His skills include advanced material characterization, surface modification, and the development of controlled drug delivery systems, which are crucial for enhancing biocompatibility and therapeutic outcomes. He is adept at integrating nanotechnology into medical applications, creating bioinspired materials that closely mimic natural tissue structures. In addition to laboratory techniques, he demonstrates strong analytical and problem-solving skills, applying scientific principles to address practical healthcare challenges. His ability to collaborate across disciplines and translate experimental findings into clinically relevant outcomes highlights his comprehensive research capability. These skills collectively position him as a researcher committed to advancing innovative biomedical technologies.

Publications Top Notes

Title: Deformation mechanism of epoxy/clay nanocomposite
Citation: 146
Year: 2007

Title: Fabrication and characterization of gold nanoparticle-doped electrospun PCL/chitosan nanofibrous scaffolds for nerve tissue engineering
Citation: 87
Year: 2018

Title: Preparation and characterization of poly ε-caprolactone-gelatin/multi-walled carbon nanotubes electrospun scaffolds for cartilage tissue engineering applications
Citation: 83
Year: 2020

Title: Antibiotics drug release controlling and osteoblast adhesion from Titania nanotubes arrays using silk fibroin coating
Citation: 82
Year: 2019

Title: Effect of surface modification on physical and cellular properties of PCL thin film
Citation: 40
Year: 2021

Conclusion

Babak Akbari’s research excellence, interdisciplinary contributions, and dedication to advancing health-oriented material sciences make him a strong candidate for recognition through the Best Researcher Award. With continued focus on global collaborations and clinical translation, his work has the potential to make even greater impact on the future of medical technology and healthcare innovations.