Supriyo Chakraborty | Biotechnology | Research Excellence Award

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Dr. Supriyo Chakraborty | Biotechnology | Research Excellence Award

Professor at Assam University | India

Dr. Supriyo Chakraborty is a distinguished biotechnology researcher and academic leader whose work spans plant genetics, molecular biology, bioinformatics, and population genetics. Renowned for his impactful contributions, he has authored a substantial body of research, reflected in 4911 citations (3972 since 2020), an h-index of 29 (24 since 2020), and an i10-index of 80 (54 since 2020). His research advances codon usage bias analysis, gene expression prediction, RNA virus genomics, and computational tools for genetic and peptide property analysis. He has developed multiple awarded software innovations that enhance genomic interpretation and statistical genetics, widely used across plant, animal, and microbial systems. His notable work includes microRNA-based viral gene silencing models, codon usage and RNA editing studies in bat-borne viruses, and gene regulation mechanisms in neurobiological conditions. His contributions to QTL mapping in rice, maize, and Drosophila have supported crop improvement and advanced quantitative genetics. He has also generated important insights into human population genetics through studies on ABO and Rh gene frequencies and genetic distance estimation. As a professor of biotechnology, he has mentored numerous doctoral scholars and strengthened research and teaching in genetics, molecular biology, and plant biotechnology. His scholarly books, book chapters, popular articles, and extensive participation in national and international scientific programs reflect his commitment to advancing scientific knowledge. Dr. Chakraborty’s multifaceted research portfolio and lasting contributions place him among the leading figures in contemporary biotechnology and genetic research.

Profile: Google Scholar

Featured Publications

Malakar, A. K., Choudhury, D., Halder, B., Paul, P., Uddin, A., & Chakraborty, S. (2019). A review on coronary artery disease, its risk factors, and therapeutics. Journal of Cellular Physiology, 234(10), 16812–16823.

Paul, P., Chakraborty, A., Sarkar, D., Langthasa, M., Rahman, M., Bari, M., & Chakraborty, S. (2018). Interplay between miRNAs and human diseases. Journal of Cellular Physiology, 233(3), 2007–2018.

Khawbung, J. L., Nath, D., & Chakraborty, S. (2021). Drug resistant Tuberculosis: A review. Comparative Immunology, Microbiology and Infectious Diseases, 74, 101574.

Deb, B., Uddin, A., & Chakraborty, S. (2018). miRNAs and ovarian cancer: An overview. Journal of Cellular Physiology, 233(5), 3846–3854.

Barman, A., Deb, B., & Chakraborty, S. (2020). A glance at genome editing with CRISPR Cas9 technology. Current Genetics, 66, 447–462.

Mehrdad Esmaeilipour | Biotechnology | Excellence in Innovation Award

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Mr. Mehrdad Esmaeilipour | Biotechnology | Excellence in Innovation Award

Parsa Pardazesh Booshehr Sanaat | Iran 

Mehrdad Esmaeilipour is a dedicated and results-driven electronic engineer with significant expertise in green technology, environmental sustainability, and smart system development. With a robust background in electronic circuit design, plasma systems, and digital health innovations, he plays a leading role in integrating engineering excellence with social impact. He currently contributes as a senior electronics engineer at a company specializing in air and water purification systems and also leads his own successful electronics and IT firm. His entrepreneurial mindset and technical expertise have led to multiple product innovations, including a smart bracelet for visually impaired individuals and several intelligent air purification systems. Additionally, he has made notable contributions to robotics through voluntary academic mentorship and team leadership.

Publication Profile 

Google Scholar

Educational Background 

He holds a bachelor’s and an associate degree in electronics engineering from Islamic Azad University. His educational background also includes foundational studies in electronics at a technical high school. His formal training has been further enhanced by certifications in cybersecurity, solar photovoltaic systems, HSE, robotics, and industrial safety.

Professional Experience 

Mehrdad has accumulated rich professional experience in both industrial and academic contexts. As a senior electronics engineer, he leads the design, development, and quality control of advanced electronic systems for environmental applications. In parallel, he serves as the CEO of an electronics and IT company where he manages cross-functional teams and has overseen the successful execution of security, networking, and software projects. His work also includes mentorship roles within university robotics teams, where he contributes to system design, sensor integration, and control strategies.

Research Interests 

His research focuses on environmental electronics, cold plasma technology, artificial intelligence in healthcare, robotic control systems, electronic data engineering, and smart wearable systems. He is particularly interested in developing sustainable technologies that address real-world challenges through a multidisciplinary approach.

Awards and Honors 

Mehrdad has received numerous international accolades for his engineering innovations and societal impact. These include the Tech Excellence Award, Best Wearable Sensing Technology Award, and Best Innovator Award, among others. He has also earned recognition from academic and professional organizations in both engineering and business domains.

Research Skills 

He possesses strong expertise in electronic circuit design, embedded systems, sensor integration, control systems (including PID and fuzzy logic), and smart system architecture. He is proficient in tools such as Altium Designer and Eagle, and he has demonstrated capability in both hardware and software integration for industrial and research applications. His skills are complemented by project management, analytical reasoning, and interdisciplinary collaboration.

Publications 

  1. Advancements in Cold Plasma Technology for Electronic and Surface Sterilization Applications
    Year: 2025

  2. Design, Construction and Performance Comparison of Fuzzy Logic Controller and PID Controller for Two-Wheel Balance Robot
    Year: 2025

  3. The Utilization of Artificial Intelligence Technologies in the Domain of Electronic Data Engineering
    Year: 2025

  4. Single Miller Compensation with Split Output and Current Amplifier Use in Three Stage Amplifiers to Drive Ultra Large Capacitive Loads
    Year: 2015

Conclusion 

Mehrdad Esmaeilipour exemplifies a forward-thinking engineer who merges technological innovation with a commitment to environmental and social betterment. His extensive practical experience, research output, and leadership across industry and academia reflect his capacity to contribute meaningfully to the advancement of electronic engineering and sustainability-driven technologies.