Kave Moloudi | Genetics and Molecular Biology | Research Excellence Award

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Dr. Kave Moloudi | Genetics and Molecular Biology | Research Excellence Award 

Researcher at University of Caen | France

Dr. Kave Moloudi is a highly accomplished researcher whose scientific contributions in biomedical sciences, molecular biology, and nanotechnology have established him as a rising figure in advanced cancer therapeutics, with a publication record that includes 26 documents, an h-index of 15, and 559 citations by 487 documents. He has cultivated a strong academic foundation through progressive training in biomedical sciences, radiobiology, radiation protection, and medical imaging, supported by extensive laboratory and research experience across multidisciplinary scientific environments. Dr. Kave Moloudi’s academic journey reflects deep engagement with biological systems, cancer mechanisms, and therapeutic innovations, enabling him to bridge fundamental science with translational medical applications. His professional experience spans teaching, research, and laboratory leadership, where he has contributed to scientific advancements in nanomedicine, photodynamic therapy, multimodal imaging, and biomaterials. Throughout his career, he has worked on developing and characterizing nanocarriers, exploring cell death pathways, studying tumor microenvironments, and designing combined therapeutic platforms that integrate photodynamic, radiotherapeutic, and chemotherapeutic strategies. He has also published widely on fluorescent imaging agents, liposomal nanocarriers, radiosensitizers, stem cell responses to ionizing radiation, and the biological effects of natural compounds in oncological contexts. His work often centers on enhancing therapeutic precision, overcoming tumor hypoxia, and improving diagnostic capabilities through innovative imaging modalities. Dr. Kave Moloudi’s research interests span nanotheranostics, 3D cell culture models, cancer imaging, molecular radiobiology, and advanced drug delivery systems, demonstrating a consistent commitment to pushing the boundaries of current therapeutic and diagnostic technologies. His scholarly impact extends globally through numerous peer-reviewed publications, review articles, and collaborative projects that highlight his expertise in integrating nanotechnology with medical science. In conclusion, Dr. Kave Moloudi stands out as a dedicated and forward-thinking scientist whose contributions continue to shape the evolving landscape of cancer research, molecular imaging, and nanomedicine, with his citation metrics and broad research portfolio reflecting both the depth and influence of his academic and scientific achievements.

Profile: Scopus | Orcid | Google Scholar | Linkedin 

Featured Publications:

  • Moloudi, K., Abrahamse, H., & George, B. P. (2024). Nanotechnology-mediated photodynamic therapy: Focus on overcoming tumor hypoxia. Wiley Interdisciplinary Reviews: Nanomedicine and Nanobiotechnology, 16(1), e1937.

  • Moloudi, K., Abrahamse, H., & George, B. P. (2025). Overcoming photodynamic therapy resistance via DNA repair inhibitors: Advanced review. Photodiagnosis and Photodynamic Therapy, 54, 104724.

  • Moloudi, K., & Haghdoost, S. (2025). An Update on Role of Ionizing Radiation to Enhance Proliferation and Differentiation of Normal Stem Cells via Activation of NRF2 Pathway: Review. Antioxidants, 14(8), 986.

  • Moloudi, K., Abrahamse, H., & George, B. P. (2023). Photodynamic therapy induced cell cycle arrest and cancer cell synchronization: Review. Oncology (Frontiers in Oncology). 12 July 2023. Frontiers

  • Moloudi, K., Abrahamse, H., & George, B. P. (2024). Co-loading Radio-photosensitizer Agents on Polymer and Lipid-based Nanocarriers for Radio-photodynamic Therapy Purposes: Review. Current Pharmaceutical Design.

  • Moloudi, K., Abrahamse, H., & George, B. P. (2023). Understanding the photodynamic therapy induced bystander and abscopal effects: A review. Antioxidants, 12(7), 1434.

  • Moloudi, K., Abrahamse, H., George, B. P.(2023). Up-regulation of ABCG2 by MYBL2 deletion drives chlorin e6-mediated photodynamic therapy resistance in colorectal cancer. Photodiagnosis and Photodynamic Therapy, 42,

Abdul Bari | Genetics and Molecular Biology | Young Scientist Award

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Mr. Abdul Bari | Genetics and Molecular Biology | Young Scientist Award

Lecturer at Helmand University | Afghanistan 

Mr. Abdul Bari Hejran is a young scientist from Afghanistan with a strong academic foundation in genetics, molecular biology, and virology, actively contributing to research and teaching in these fields. He earned his Bachelor’s degree in Biology from Helmand University and later pursued a Master’s degree in Virology at Al-Farabi Kazakh National University, where he specialized in phytovirology, viral pathogenesis, and systematic virology. His Master’s dissertation focused on the molecular epidemiology and interspecies transmission of Influenza D Virus in livestock and wild mammals, leading to the successful isolation of a novel viral strain in Kazakhstan, contributing important insights to One Health strategies and zoonotic disease prevention. Professionally, Mr. Abdul Bari Hejran has served as a lecturer at Helmand University, Arakozia Institute of Higher Education, and Bost Institute of Health Sciences, while also teaching English at Al-Azhar English Language Institute and guiding students in Kankor examination preparation. His research interests lie in viral infections, molecular epidemiology, zoonotic diseases, and public health, with plans to pursue doctoral studies focusing on viral pathogenesis and host–virus interactions. He is proficient in a wide range of research skills including RT-PCR, sequencing, phylogenetic analysis, metagenomics, and data analysis using R and SPSS, complemented by strong computer, programming, and bioinformatics expertise. He has published 35 academic and research articles, presented at international conferences, and contributed to public health research such as the clinical and laboratory diagnosis of hepatitis B. Among his awards and honors are certificates for outstanding academic performance, certifications in student-centered learning, renewable energy, and English language teaching from institutions like the British Council and the Ministry of Higher Education. In conclusion, Mr. Abdul Bari Hejran’s academic achievements, teaching experience, research contributions, and international collaborations highlight his potential as a future leader in molecular biology and virology, with the ability to contribute significantly to scientific advancement and global health research.

Profile: Orcid | Google Scholar

Featured Publications:

Hamidi, H., Hejran, A. B., Sarwari, A., & Edigeevna, S. G. (2024). The effect of outcome-based education on behavior of students. European Journal of Theoretical and Applied Sciences, 2(2), 764–773.

Alimyar, O., Nahiz, A., Monib, A. W., Baseer, A. Q., Hassand, M. H., Kakar, U. M., … Hejran, A. B. (2024). Coffea plant (caffeine): Examining its impact on physical and mental health. European Journal of Medical and Health Research, 2(2), 143–154.

Baseer, A. Q., Niazi, P., Monib, A. W., Hassand, M. H., Hejran, A. B., Sarwari, A., … (2024). Lifecycle transitions in plant development: Ripening, senescence, & cell death. Journal of Pharma Insights and Research, 2(2), 169–179.

Hejran, A. B., Ashrafi, H., Baseer, A. Q., Sarwari, A., Monib, A. W., Hassand, M. H., … (2024). The importance of hyaluronic acid in biological systems. European Journal of Theoretical and Applied Sciences, 2(2), 730–743.

Hejran, A. B., Alimyar, O., Afghan, R., & Niazi, P. (2024). Exploring the multifaceted role of viruses in sustaining biodiversity: Mechanisms, implications, and contributions to ecosystem stability. Scientia. Technology, Science and Society, 1(2), 35–49.

Zipeng Yu | Genetics and Molecular Biology | Best Researcher Award

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Prof. Zipeng Yu | Genetics and Molecular Biology | Best Researcher Award 

Professor at Shandong University | China

Prof. Zipeng Yu is an accomplished researcher at Shandong University, specializing in plant science with a focus on hormone-mediated growth and stress responses. His career has been defined by a strong commitment to advancing plant biology through innovative studies that connect molecular mechanisms with applied agricultural solutions. Prof. Zipeng Yu has contributed significantly to understanding hormone signaling pathways and their roles in plant adaptation, resilience, and productivity. With an extensive record of publications in leading journals, his work is widely cited and has shaped current directions in plant research, positioning him as a distinguished scholar and innovator in his field.

Profile:

Orcid

Education:

Prof. Zipeng Yu pursued his academic training in plant science and built a strong foundation in molecular biology and biotechnology, which enabled him to integrate cutting-edge techniques into plant hormone research. His education emphasized experimental design, molecular genetics, and cellular signaling pathways, equipping him with the expertise to explore complex biological systems. Through rigorous academic preparation, he has developed both theoretical and practical insights into plant physiology. This strong educational background has been instrumental in guiding his independent research career, enabling him to bridge fundamental science with applied innovations in plant growth, development, and environmental adaptability.

Experience:

Prof. Zipeng Yu has served at Shandong University, where he has actively contributed to teaching, mentoring, and research leadership. His experience spans designing and managing research projects, supervising graduate students, and engaging in collaborative work with national and international partners. He has a proven track record of high-quality research outputs in journals of international repute. Additionally, his professional roles have included active participation in editorial and review processes, contributing to the advancement of scientific standards in plant biology. Through these experiences, he has built a profile as both an educator and a thought leader in his field.

Research Interests:

Prof. Zipeng Yu’s research interests lie in the intricate dynamics of plant hormones and their regulatory mechanisms. His investigations focus on hormone signaling pathways that govern growth, development, and responses to environmental stresses. He is particularly interested in how plants adapt morphologically and physiologically under fluctuating conditions through hormone-mediated plasticity. His work integrates molecular biology, genetics, and physiology, providing a comprehensive view of plant adaptability. Prof. Zipeng Yu’s ongoing projects explore the cross-talk between hormones and stress signaling, offering new insights for improving crop resilience. His contributions are driving forward innovations with broad implications for global agricultural sustainability.

Awards and Honors:

Prof. Zipeng Yu has earned recognition for his outstanding contributions to plant science research, receiving distinctions for both his innovative studies and impactful publications. His awards highlight his dedication to advancing the scientific understanding of hormone-mediated plant processes. He has been honored for excellence in research productivity, scientific innovation, and his influence on plant biology at both national and international levels. These recognitions underscore his leadership, his ability to inspire students and collaborators, and his lasting impact on the global research community. His achievements affirm his place as a highly respected and award-worthy researcher in plant sciences.

Publications:

Title: Cell wall dynamic changes and signaling during plant lateral root development
Year of Publication: 2025
Citation: 2

Title: Cell wall dynamic changes and signaling during plant lateral root development 
Year of Publication: 2025
Citation: 2

Title: Mitogen-Activated Protein Kinases 3/6 Reduce Auxin Signaling via Stabilizing Indoleacetic Acid-Induced Proteins 8/9 in Plant Abiotic Stress Adaptation 
Year of Publication: 2025

Conclusion:

Prof. Zipeng Yu has demonstrated excellence in research, teaching, and scientific innovation, making him a deserving nominee for the Best Researcher Award. His groundbreaking studies on hormone mediated plant growth and stress response have significantly advanced scientific understanding and provided practical insights for sustainable agriculture. With a robust record of impactful publications, citations, and contributions to the global plant science community, he exemplifies the qualities of a pioneering researcher. His dedication to advancing knowledge, mentoring future scientists, and addressing global agricultural challenges highlights his distinguished role in shaping the future of plant biology and its applications.