Ms. Mojdeh Rajabi – Tissue engineering – Best Researcher Award

Ms. Mojdeh Rajabi - Tissue engineering - Best Researcher Award

Amirkabir University of Technology - Iran

Author Profile

SCOPUS

Early academic pursuits 🎓

Mojdeh Rajabi's academic journey began with a strong foundation in materials science engineering, where she earned her B.Sc. from the University of Science & Technology in Tehran, Iran, in 1993. Her keen interest in mechanical engineering and innovation led her to pursue an M.Sc. in Mechanical Engineering at the University of Saskatchewan, Canada, which she completed in 1996. Building on this diverse academic background, she is currently a Ph.D. candidate in Biomedical Engineering at Amirkabir University of Technology (Tehran Polytechnic), focusing on tissue engineering.

Professional endeavors 💼

Throughout her career, Mojdeh has gained substantial experience in both academia and industry. She held leadership roles in various companies, including serving as the Manager of Quality Monitoring and Productivity at Alborz Apadana Steel from 2019 to 2023. She was also a Senior Project Manager at Materials Innovation & Process Engineering Consultants (MIPEC) between 2013 and 2019, where she worked on complex materials engineering projects. Additionally, Mojdeh's engineering expertise was honed at automotive giants such as Supplying Automotive Parts Corporation (SAPCO) and Zamyad Automotive Corporation, where she contributed to development, procurement, and design engineering.

Contributions and research focus 🔬

Mojdeh’s research is primarily focused on tissue engineering and biomedical applications, where she integrates her mechanical and materials science expertise. As a Ph.D. candidate, she is responsible for the Tissue Engineering Laboratory at Amirkabir University of Technology, where she conducts cutting-edge research in the development of biomaterials and regenerative medicine. Her work aims to bridge the gap between mechanical engineering and biology to advance medical Tissue engineering technologies that can improve the quality of life. Additionally, she co-authored the book "Neurocognitive mechanisms of attention," which explores computational models and their relevance in disease states.

Academic contributions 📚

In academia, Mojdeh has consistently contributed to the education of future engineers and researchers. She has taught B.Sc. courses in mechanical and biomedical engineering at Shahab Danesh University and the University of Applied Science & Technology in Tehran. Her teaching roles, coupled with her expertise in tissue Tissue engineering engineering, have enabled her to mentor students and foster the development of new talent in the biomedical field. Additionally, her work as a freelance editor of technical papers from 2018 to 2024 has further solidified her role in advancing academic excellence.

Accolades and recognition 🏅

Mojdeh Rajabi's academic and industrial work has garnered her recognition in both the engineering and biomedical communities. Her contributions to research and Tissue engineering development, particularly in the field of tissue engineering, have been published in reputable journals and books, with one of her most notable works being a co-authored publication in Academic Press on neurocognitive mechanisms of attention. Her extensive experience in both teaching and industry has made her a respected figure in her field, often sought for her expertise in quality monitoring, product development, and biomedical research.

Impact and influence 🌍

Mojdeh's work in tissue engineering and mechanical engineering continues to influence both research and industry. Her innovative approach to integrating mechanical engineering principles with biomedical applications has led to advancements in the development of new materials and medical devices. Additionally, her role in academia allows her to pass on her knowledge to the next generation of engineers, ensuring that her impact will be felt for years to come. Through her contributions to both industry and education, Mojdeh has become a key player in advancing biomedical and engineering technologies.

Legacy and future contributions 🔮

Looking ahead, Mojdeh Rajabi’s legacy is defined by her commitment to interdisciplinary research and education in the fields of engineering and biomedical sciences. Her ongoing Ph.D. research in tissue engineering promises to offer new insights into the development of materials that can be used in regenerative medicine, with the potential to revolutionize treatments for a variety of medical conditions. Mojdeh’s future contributions will undoubtedly continue to drive innovation, bridging the gap between mechanical engineering and the life sciences to create meaningful solutions for healthcare challenges.

Notable Publications 

  • Title: Sustained release of heparin from PLLA micropartricles for tissue engineering applications
    Authors: Rajabi, M., Shabani, I., Ahmadi Tafti, S.H., Shabani, A.
    Journal: Polymer Testing, 2024, Volume 140, Article 108628
  • Title: Neurocognitive Mechanisms of Attention: Computational Models, Physiology, and Disease States
    Authors: Baghdadi, G., Towhidkhah, F., Rajabi, M.
    Book: Neurocognitive Mechanisms of Attention: Computational Models, Physiology, and Disease States, 2021, pp. 1–427

Dr. Vikas Shukla – Nanomedicine and Immunology – Best Researcher Award

Dr. Vikas Shukla - Nanomedicine and Immunology - Best Researcher Award

AIIMS, New Delhi - India 

Author Profile

GOOGLE SCHOLAR 

Early academic pursuits 📚

Vikas Shukla's academic journey began with a deep-rooted passion for nanobiotechnology and immunology. He dedicated himself to gaining a solid foundation in the life sciences, eventually leading him to pursue advanced studies in these cutting-edge fields. His education, characterized by rigorous training, provided the tools necessary for his future contributions to scientific research. Over the years, vikas built an impressive knowledge base in bacterial culture, cell culture, and immunoassays, which would serve as the backbone of his research career.

Professional endeavors 🏢

currently serving as a research scientist-II at the all india institute of medical sciences (aiims) in new delhi, india, vikas brings over 8 years of extensive experience to the forefront. His role at aiims, within the department of plastic, reconstructive & burns surgery, involves not only laboratory-based research but also project management. This balance between hands-on science and overseeing project timelines ensures that he contributes effectively to the scientific and clinical goals of his department.

Contributions and research focus 🔬

Vikas's research primarily revolves around nanobiotechnology and immunology, with a keen focus on innovative solutions in medical science. He has demonstrated exceptional expertise in bacterial culture, cell culture, immunoassays, and small animal handling. His work seeks to bridge the gap between complex scientific Nanomedicine and Immunology theories and their real-world applications, particularly in healthcare. Vikas’s research outputs have helped advance understanding in both fundamental immunological responses and the application of nanotechnology in therapeutic treatments.

Accolades and recognition 🏅

throughout his career, vikas has received commendations for his meticulous work and contributions to the field. His ability to keep projects both on time and on Nanomedicine and Immunology budget while maintaining high scientific standards has not gone unnoticed. He is widely recognized among his peers and colleagues for his diligence, precision, and ability to translate complex scientific concepts into more accessible knowledge. His exceptional communication skills have further bolstered his reputation as a skilled researcher and project manager.

Impact and influence 🌍

Vikas’s research holds significant implications for the fields of immunology and nanobiotechnology, particularly within clinical settings. His work on developing innovative medical treatments and enhancing immunological responses has the potential to save lives and improve patient outcomes. His influence extends beyond the laboratory, as his project management skills ensure that critical research is completed efficiently, benefiting both the scientific community and society as a whole.

Legacy and future contributions 🔮

looking ahead, Vikas Shukla’s legacy will likely be defined by his contributions to advancing the use of nanotechnology in medicine. His ongoing work at aiims and within the broader scientific community will continue to impact the development of new therapeutic approaches and enhance our understanding of immune Nanomedicine and Immunology responses. His commitment to pushing the boundaries of science while managing complex projects ensures that his influence will be felt for years to come.

Notable Publications 

Smart Drug-Delivery Systems in the Treatment of Rheumatoid Arthritis: Current, Future Perspectives  2021

Dynamic light scattering (DLS) particle size analysis for biomedical nanotechnology  2023

Downmodulation of lysophosphatidic acid by Berberine loaded folate-conjugated glycol chitosan nanoparticles  2022

Therapeutic use of mesenchymal stem cells against SARS-Cov-2: present and future prospects  2022

Phytomedicine Meets Nanotechnology: A Cellular Approach to Rheumatoid Arthritis Treatment 2024

Assist Prof Dr. Chinmoy das – Energy Materials – Best Researcher Award

Assist Prof Dr. Chinmoy das - Energy Materials - Best Researcher Award

SRM University-AP, Andhra Pradesh - India

Author Profile

SCOPUS

ORCID

Early academic pursuits 🎓

Dr. Chinmoy das began his academic journey with a passion for experimental chemistry, laying a strong foundation during his undergraduate and postgraduate studies. his early interest in sustainable chemistry led him to pursue advanced research focused on eco-friendly materials and energy solutions. this academic groundwork fueled his determination to innovate in areas crucial for addressing climate and environmental challenges.

Professional endeavors 🏛️

throughout his career, dr. das has worked at the intersection of chemistry and environmental sustainability. his professional focus centers on synthesizing functional materials that contribute to sustainable energy solutions. from the conversion of atmospheric co2 into industrial fuels like methanol and ethanol to the creation of clean water from atmospheric moisture, he has consistently pursued impactful solutions. his work with solid-state electrolytes also opens up new possibilities for low-cost, biodegradable lithium and sodium-ion batteries.

Contributions and research focus 🔍

dr. das’s contributions to the field of experimental chemistry are distinguished by his focus on sustainability. he is particularly interested in using green chemistry methods to convert atmospheric co2 into clean fuels, thus offering a promising path toward reducing global carbon emissions. his innovations in harvesting clean Energy Materials water using solar power and creating biodegradable electrolytes for batteries underline his commitment to creating eco-friendly, scalable technologies.

Accolades and recognition 🏅

Dr. Chinmoy das’s pioneering work has garnered recognition from both academic and industrial sectors. his research contributions have led to publications in top-tier journals and invitations to present at international conferences. his ability to bridge fundamental chemistry with practical applications has positioned him as a key Energy Materials figure in sustainable material science and green energy production.

Impact and influence 🌍

The impact of dr. das's research extends beyond the laboratory. his innovative approaches to co2 conversion and water purification have the potential to influence global environmental policy and industrial practices. his work on biodegradable electrolytes offers a promising avenue for reducing the environmental footprint of Energy Materials energy storage technologies. his influence is seen not only in academia but also in industry, where sustainable technologies are urgently needed.

Legacy and future contributions 🔮

dr. Chinmoy das's legacy will be defined by his contributions to developing sustainable, scalable solutions for global environmental challenges. his work in transforming co2 into fuel, purifying water through solar energy, and advancing biodegradable battery technologies will continue to inspire future research. as a visionary experimental chemist, he is poised to lead further innovations in sustainable chemistry, leaving a lasting impact on both scientific and environmental communities.

Notable Publications