Muhammad Junaid Anwar | Immunology Cellular Interactions | Best Researcher Award

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Dr. Muhammad Junaid Anwar | Immunology Cellular Interactions | Best Researcher Award

Bahauddin Zakariya Univeristy |Pakistan

Dr. Muhammad Junaid Anwar is a rising scholar in Food Science & Technology whose work spans bioactive compounds, dairy protein‐based nanoencapsulation, food safety, and nutraceutical applications. According to Google Scholar, he has authored over 20 peer-reviewed articles and accumulated more than 270 citations to date, reflecting an h-index of 8.  His research includes investigations into olive oil polyphenols for cancer prevention, development of casein-based nanoencapsulation for managing cow’s milk allergy, optimization of ultrasonication pre-treatments for microbial reduction in fresh produce, and exploration of isoflavones and resveratrol in anticancer contexts. Through a blend of experimental and review work, he advances both the applied and mechanistic understanding of functional foods and health-promoting ingredients.

Profiles: Google Scholar | Scopus | Orcid

Featured Publications:

Anwar, M. J., Anwar, M. H., Imran, M., Noman, A. M., Hussain, M., Raza, H., … & Selim, S. (2025). Olive oil polyphenols: A promising approach for cancer prevention and therapy. Food Science & Nutrition, 13(9), e70976.

Anwar, M. J., Hameed, A., Khan, M. U., Mazhar, A., & Manzoor, H. M. I. (2025). Development and exploration of casein-based nano-encapsulation of mangiferin for cow milk allergy management and immunomodulation. Food Bioscience, 66, 106278.

Javed, M. S., Nawaz, H., Filza, F., Anwar, M. J., Shah, F. U. H., Ali, U., … & Nayik, G. A. (2025). Optimization of calcium chloride and ultrasonication pre-treatment to mitigate the microbial load on fresh carrots using response surface methodology. Ultrasonics Sonochemistry, 116, 107311.

Ul Hassan, M. H., Shahbaz, M., Imran, M., Momal, U., Naeem, H., Mujtaba, A., Hussain, M., Anwar, M. J., Alsagaby, S. A., Al Abdulmonem, W., Yehuala, T. F., & Mostafa, E. M. (2025). Isoflavones: Promising natural agent for cancer prevention and treatment. Food Science & Nutrition, 13(3), e70091.

Hameed, A., Ashraf, F., Anwar, M. J., Amjad, A., Hussain, M., Imran, M., … & Jbawi, E. A. (2024). α-Amylase enzyme inhibition relevant to type II diabetes by using functional yogurt with Cinnamomum verum and Stevia rebaudiana. Food and Agricultural Immunology, 35(1), 2389091.

Khalid, M. U., Sultan, M. T., Khan, W. A., Israr, M., Zafar, N., Noman, A. M., Imtiaz, S., Younis, M., Anwar, M. J., Nayyar, A., Orabi, A. A., & Khalil, N. A. (2024). Nutritional and physico-chemical profiling of Tribulus terristris and its nutraceuticals application. Journal of Population Therapeutics & Clinical Pharmacology, 31(9), 1230–1241.

Faisal, Z., Irfan, R., Akram, N., Manzoor, H. M. I., Aabdi, M. A., Anwar, M. J., … & Desta, D. T. (2024). The multifaceted potential of fenugreek seeds: From health benefits to food and nanotechnology applications. Food Science & Nutrition, 12(4), 2294–2310.

Javed, M. S., Alvi, S. Q., Amjad, A., Sardar, H., Anwar, M. J., Javid, A., … & AbdElgawad, H. (2024). Protein extracted from Moringa oleifera Lam. leaves: Bio-evaluation and characterization as suitable plant-based meat-protein alternative. Regulatory Toxicology and Pharmacology, 146, 105536.

Anwar, M. J., Altaf, A., Imran, M., Amir, M., Alsagaby, S. A., Al Abdulmonem, W., Mujtaba, A., El-Ghorab, A. H., Ghoneim, M. M., Hussain, M., Al Jbawi, E., Shaker, M. E., & Abdelgawad, M. A. (2023). Anti-cancer perspectives of resveratrol: A comprehensive review. Food and Agricultural Immunology, 34(1).

Hameed, A., Anwar, M. J., Khan, M. I., Tarar, O. M., Ali, S. W., Faraz, A., … & Kashif, A. S. (2023). Assessing the impact of camel breed and their grazing habits on the nutritional profile of milk. Pakistan Journal of Agricultural Sciences, 60(2).

Charles Wang | Epigenomics | Distinguished Scientist Award

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Prof. Charles Wang | Epigenomics | Distinguished Scientist Award

Prof. Charles Wang | Loma Linda University Center for Genomics | United States

Dr. Changhong Wang (now known as Dr. C. Wang), a U.S. citizen, is a distinguished molecular toxicologist and genomic scientist currently serving as Director and Tenured Professor at the Center for Genomics, Loma Linda University. Originally from China, Dr. Wang holds dual graduate degrees in Public Health and Toxicology from Tongji Medical University and the University of Washington, respectively. His early career laid the foundation for pivotal research into environmental toxicants and gene-environment interactions. Dr. Wang has significantly contributed to the understanding of xenobiotic metabolism, DNA methylation, and the transgenerational effects of toxins and epigenetics. His leadership in molecular genetics research is reflected in numerous peer-reviewed publications and competitive grants. A passionate educator and mentor, Dr. Wang’s work bridges foundational science and clinical application, marking him as a strong contender for the Research for Distinguished Scientist Award.

Publication Profile: 

Socpus

Education:

Dr. Wang received his Ph.D. in Toxicology from the University of Washington, Seattle. His doctoral work focused on aflatoxin metabolism and liver glutathione S-transferases in nonhuman primates, mentored by Dr. David L. Eaton. Prior to that, he earned an MPH in Environmental Epidemiology from Tongji Medical University, China, where he developed a foundation in public health and environmental sciences. His dual training in toxicology and epidemiology provided a unique cross-disciplinary approach to health sciences. This strong academic background enables Dr. Wang to address critical questions regarding how environmental exposures affect human health, especially through epigenetic and genomic pathways. His educational path reflects a continuous pursuit of scientific excellence and translational impact, positioning him to bridge molecular discoveries with public health relevance—a crucial quality for a candidate of the Distinguished Scientist Award.

Experience:

Dr. Wang currently serves as Director and Tenured Professor at the Center for Genomics, School of Medicine, Loma Linda University (LLU), where he has led translational and mechanistic genomic research. His responsibilities span academic leadership, mentorship, and collaborative research within the Division of Molecular Genetics. Prior to this, he held the role of Associate Professor-Adjunct in Microbiology & Molecular Genetics at LLU. His earlier roles include postdoctoral and research scientist positions at institutions where he investigated environmental carcinogens, drug metabolism, and gene expression. Over three decades, Dr. Wang has built a multidisciplinary portfolio in toxicology, environmental health, and genomics. He is a leading voice in DNA methylation, epigenetic inheritance, and cancer biology. His integrative research style and administrative skills have allowed him to create impactful programs that foster innovation and interdisciplinary collaboration—an essential trait for any distinguished scientist.

Awards and Honors:

Dr. Wang’s academic journey has been decorated with prestigious accolades from the outset. He received the Excellent Medical Student Award  and Distinguished Graduate Student Award from Tongji Medical University. His pioneering research at the University of Washington earned him the First-Place Graduate Award for Research Excellence from the Society of Toxicology in New Orleans. He was awarded multiple Student Travel Awards from the University of Washington’s School of Public Health. These early recognitions underscore his long-standing commitment to scientific excellence and innovation. Dr. Wang’s later career has been marked by continuous success in publication, grant acquisition, and institutional leadership. These honors reflect both peer recognition and academic merit, reinforcing his status as a credible and outstanding candidate for the Research for Distinguished Scientist Award.

Research Focus:

Dr. Wang’s research focuses on environmental toxicology, genomics, and epigenetics, particularly in the context of transgenerational health effects. He investigates how toxicants such as cadmium, aflatoxin B1, and p,p’-DDE affect gene regulation through epigenetic reprogramming. His lab has pioneered work on DNA methylation, histone modifications, and miRNA signatures in diseases like cancer, neurodevelopmental disorders, and diabetes. Recent work has addressed the effects of e-cigarette exposure on neonatal brain methylomes and the epigenetic inheritance of addiction vulnerability. Dr. Wang also explores copy number variation and drug resistance mechanisms in oncology, using cutting-edge tools like single-cell RNA sequencing and patient-derived models. His integrative, multi-omics approach allows for deep mechanistic insights and clinical translation. His ability to lead multidisciplinary teams in high-impact research areas demonstrates both visionary thinking and the technical prowess necessary for distinguished scientific leadership.

Publications Top Notes:

  1. Cadmium-induced negative calcium balance in multiparous birth women

  2. Effect of cadmium on bone calcium in nonpregnant mice: Direct evidence on bone

  3. Cadmium’s impact on bone calcium in mouse dams: Itai-Itai-like syndrome model

  4. Induction of drug-metabolizing enzymes by BHA, ethoxyquin, and oltipraz

  5. Diquat and ciprofibrate effects on hepatic enzyme expression

  6. Mu-class GSTs mediate aflatoxin B1 epoxide conjugation in Macaca liver

  7. CYP1B1 expression analyzed in human tissues via hybridization techniques

  8. Cloning and characterization of alpha-class GSTs from Macaca liver

  9. Proteomic comparison of hepatocyte preparation methods

  10.  CYP3A41B polymorphism linked to puberty onset and breast cancer risk*

Conclusion:

In conclusion, Dr. Wang’s long-standing academic excellence, innovative research in toxicogenomics, and his leadership in advancing our understanding of environmental and epigenetic factors in disease clearly distinguish him as an outstanding scientist. His achievements fulfill and surpass the expectations for the Research for Distinguished Scientist Award. His profile reflects not only a deep commitment to rigorous science but also a visionary approach to public health and molecular research. With minor expansion in global engagement and translational outreach, Dr. Wang’s impact could be even more far-reaching. He is highly recommended for this honor.

Vahabodin Goodarzi | Biomaterials and Tissue Engineering | Best Academic Researcher Award

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Prof. Vahabodin Goodarzi | Biomaterials and Tissue Engineering | Best Academic Researcher Award

Prof. Vahabodin Goodarzi | Baqiyatallah University of Medical Sciences, Tehran | Iran

Dr. Vahabodin Goodarzi is an accomplished researcher and academic in the field of polymer engineering with a strong focus on biomaterials and nanocomposites. Holding a PhD from Tarbiat Modares University, he has consistently demonstrated academic excellence and research innovation throughout his career. Dr. Goodarzi is recognized globally for his impactful contributions to the development of smart materials, especially for biomedical and tissue engineering applications. He has collaborated on numerous international projects and published extensively in high-impact journals. His interdisciplinary work spans materials science, biomedical engineering, and polymer nanotechnology, and he is a frequent contributor to the scientific community through publications, mentorship, and conference presentations. His work bridges fundamental research and practical application, positioning him as a prominent figure in advancing functional materials for real-world applications.

Publication Profile: 

Google Scholar

Education:

Dr. Vahabodin Goodarzi earned his B.Sc. in Polymer Engineering from Amirkabir University of Technology. He continued his academic journey with an M.Sc. in Polymer Engineering from the University of Tehran. His academic excellence earned him recognition as a top student at both institutions. He completed his PhD in Polymer Engineering at Tarbiat Modares University (TMU). His doctoral thesis focused on the modeling, design, and manufacturing of sensor/actuator elements based on smart nanocomposites, highlighting his early interest in intelligent material systems. Across all stages of his academic training, Dr. Goodarzi has shown a deep commitment to advanced material research and a passion for applying polymer science to real-world challenges in medicine and engineering.

Experience:

With over a decade of research and academic experience, Dr. Goodarzi has made significant contributions to the fields of polymer engineering, nanotechnology, and biomedical materials. He has held academic positions in top Iranian institutions and participated in collaborative research projects internationally. His expertise spans polymer synthesis, nanocomposites, smart materials, electroactive biomaterials, and tissue engineering scaffolds. Dr. Goodarzi has mentored graduate students, led interdisciplinary research teams, and contributed to more than 100 peer-reviewed publications. His work emphasizes real-world applications of advanced polymeric materials, including environmental solutions and regenerative medicine. In addition to research, he is involved in scientific reviewing, conference participation, and international collaborations. Dr. Goodarzi’s impactful experience in academia and research makes him a highly influential figure in material science and engineering domains.

Awards and Honors:

Dr. Vahabodin Goodarzi has received several prestigious awards and distinctions throughout his academic career. He was recognized as the Top Student at Amirkabir University of Technology and also as the First-Rank Student among all polymer engineering students during his undergraduate studies. He was again honored as a Top Student at the University of Tehran for his excellence in postgraduate studies. These early recognitions laid the foundation for a career marked by academic rigor and research excellence. With a citation count surpassing and a strong H-index, his contributions continue to gain acknowledgment in international academic and research circles. His publications in high-impact Q1 journals, innovative research in tissue engineering, and leadership in material design and applications further affirm his eligibility for high-level awards like the Best Academic Researcher Award.

Research Focus:

Dr. Goodarzi’s research is centered on polymeric materials, nanocomposites, and biomaterials with a strong orientation toward tissue engineering and smart responsive systems. He has worked extensively on developing biodegradable and electroconductive polymers for applications in regenerative medicine, such as bone and cartilage scaffolds, dermal regeneration, and neural tissue engineering. His interdisciplinary approach bridges polymer chemistry, biomedical engineering, and materials science, emphasizing sustainable, eco-friendly, and high-performance materials. His work on polyglycerol-based materials, hydrogels, and smart nanocomposites showcases his contribution to next-generation biomaterials. His research also explores wastewater treatment, EMI shielding, and sensor applications, making it both deep and broad. Through computational modeling, synthesis, and experimental validation, Dr. Goodarzi continues to lead in advancing functional materials that align with real-world applications in health, environment, and technology.

Publications Top Notes:

Application of PGIt and PCL-diol with Cloisite Na+ for Tissue Engineering – J Polymers and the Environment

PGS-based Composites and Nanocomposites: Properties and Applications
Soft Plasma-Modified PCL-Alginate Nanofiber with Bioactive Glass and PRP for Bone Regeneration
Cobalt/Bioglass Nanoparticles for Dermal Regeneration in 3-Layered Scaffold
PLA/PGSu Scaffold with Nano-Hydroxyapatite for Bone Regeneration
3D Scaffold with PGS/PCL/Gelatin and nHA for Chondrogenic Differentiation
Itaconic Acid-Based Electroconductive Polyester with Polypyrrole for Tissue Restoration

 Bio-based Elastomer Nanocomposites with PGS-citrate/Chitosan/nHA
 Electroactive Nanocomposites with PVDF-HFP/PC Blends
 Ternary Nanocomposite Aerogel for Dye Removal (CMC-g-PAA/GO)

Conclusion:

In conclusion, Dr. Vahabodin Goodarzi exemplifies the qualities of a dedicated and impactful academic researcher. His strong publication record, high citation metrics, and interdisciplinary research contributions make him a highly suitable nominee for the Best Academic Researcher Award. With minor enhancements in the documentation of his leadership roles and broader academic influence, his candidacy would be even more compelling. Nonetheless, his accomplishments already reflect a researcher who is pushing the boundaries of knowledge in polymer science and biomaterials with societal and scientific relevance.

Junfeng Zhang | Cancer Cell Biology | Best Researcher Award

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Assoc. Prof. Dr. Junfeng Zhang | Cancer Cell Biology | Best Researcher Award

Assoc. Prof. Dr. Junfeng Zhang, Anhui University of Science and Technology, China

Dr. Junfeng Zhang is an Associate Professor and Deputy Director of the Center for Medical Frontiers at the School of Medicine, Anhui University of Science and Technology. With a Ph.D. in biomedical sciences, he has emerged as a leading figure in nanomedicine and cancer theranostics. His work integrates nanotechnology, molecular imaging, and drug delivery systems, particularly focusing on intelligent nanoformulations for tumor targeting and integrated diagnostics and therapy. Dr. Zhang is an active member of multiple national medical committees and has contributed significantly to interdisciplinary research. His publications in prestigious journals like Advanced Materials, Small Methods, and Advanced Science reflect both scientific depth and translational potential. As a council and committee member of several medical and health associations, he actively promotes collaboration across academic and healthcare institutions. His dedication to innovation and public health positions him as a rising star in biomedical engineering and personalized cancer therapy.

Publication Profile: 

Orcid

Strengths for the Award:

  1. High-Impact Research Contributions

    • Dr. Zhang has published in top-tier international journals such as Advanced Materials (IF: 32.086), Advanced Science (IF: 15.1), and Small Methods (IF: 15.367).

    • His work demonstrates interdisciplinary excellence—combining nanotechnology, oncology, and imaging science to address complex medical challenges.

  2. Innovative Scientific Focus

    • Focused on intelligent theranostic nanoformulations, his research targets both diagnostic imaging and cancer therapy in a single platform.

    • He has developed laser-free imaging systems, nucleus-targeted drug delivery platforms, and responsive nanosystems, which are highly relevant to personalized and precision medicine.

  3. Leadership & Recognition

    • Serves as the Deputy Director of the Center for Medical Frontiers, showing strategic leadership.

    • Holds multiple national-level committee memberships, indicating peer recognition and influence in the field of nuclear medicine, digital health, and environmental mutagen studies.

  4. Collaborative & Global Research Impact

    • Frequently collaborates with international researchers like Prof. Rui L. Reis.

    • Demonstrates versatility in both experimental and translational research, addressing real-world medical and toxicological issues.

  5. Consistent Productivity

    • Maintains a consistent and strong publication record as first/corresponding author over the past five years, with multi-disciplinary themes.

⚠️ Areas for Improvement:

  1. Commercialization & Patent Activity

    • While his work is scientifically advanced, there is limited visible emphasis on patent filings, technology transfer, or startup ventures. Increasing focus here would enhance his profile for innovation-based awards.

  2. International Outreach

    • Although involved in collaborations, more visibility in international scientific conferences, editorial boards, or global awards could further strengthen his candidacy on the world stage.

  3. Public Health Engagement

    • As his work is deeply relevant to cancer management, more visible contributions to community awareness, patient education, or policy advisory roles could broaden the societal impact of his research.

🎓 Education:

Dr. Junfeng Zhang earned his doctoral degree (Ph.D.) in biomedical sciences, with a specialization in nanomedicine and molecular diagnostics. While the specific university name is not listed, the rigorous research output suggests training from a high-caliber institution. His education integrated core principles of pharmacology, biomedical engineering, and cancer biology, allowing him to build a strong foundation in interdisciplinary medical research. During his academic career, he focused on translational research that merges engineering, imaging technologies, and clinical applications. Through his doctoral training, Dr. Zhang acquired advanced techniques in nanoparticle synthesis, fluorescence imaging, and drug delivery. His education paved the way for impactful research in photoacoustic imaging and intelligent targeted therapies. Dr. Zhang’s academic background equipped him to lead cutting-edge research projects that align with global challenges in oncology. He continues to leverage his academic foundation to mentor graduate students and drive innovation in healthcare technology development.

🧪 Experience:

Dr. Zhang currently serves as Associate Professor and Deputy Director of the Center for Medical Frontiers at the School of Medicine, Anhui University of Science and Technology. He holds prominent roles including Council Member of the Anhui Provincial Society of Environmental Mutagens and committee memberships in nuclear medicine and digital health bodies. With over five years of experience in biomedical research and teaching, he has led numerous research projects at the interface of nanomedicine, cancer biology, and imaging diagnostics. His international collaborations and editorial contributions signify global recognition. As a mentor, he guides students and young researchers in clinical translation of nano-based therapies. His leadership at the Center for Medical Frontiers emphasizes high-impact innovation, collaborative research culture, and practical solutions to oncological diseases. His diverse experience in academic, clinical, and committee roles demonstrates his comprehensive influence in shaping future medical technologies and public health strategies.

🔬 Research Focus:

Dr. Zhang’s research focuses on the development of intelligent theranostic nanoformulations aimed at achieving both diagnosis and treatment of tumors in a single platform. His work emphasizes dual-mode imaging systems (photoacoustic/fluorescence), targeted drug delivery, and biocompatible nanocarriers capable of bypassing biological barriers. One of his key innovations involves creating gold- and carbon-based nanomaterials for laser-free imaging and mitochondrial apoptosis induction. He is particularly interested in nucleus-targeted therapies, precision drug delivery, and responsive nanosystems that adjust to tumor microenvironments. He also studies the toxicological aspects of nanomedicines under various physiological conditions, including magnetic field exposure and metabolic pathway disruptions. His research bridges disciplines like pharmacology, materials science, and medical imaging, contributing to the personalized medicine movement. With a strong publication record in high-impact journals, his research focus reflects a commitment to translating laboratory innovations into clinical applications to improve cancer diagnosis, treatment precision, and therapeutic outcomes.

📚 Publications Top Notes:

  1. 🧬 A Multifunctional Photoacoustic/Fluorescence Dual-Mode-Imaging Gold-Based Theranostic Nanoformulation without External Laser LimitationsAdvanced Materials, 2022

  2. 💊 An Efficient Carbon-Based Drug Delivery System for Cancer Therapy through the Nucleus Targeting and Mitochondria Mediated Apoptotic PathwaySmall Methods, 2021

  3. 🧠 Humanistic Health Management and Cancer: Associations of Psychology, Nutrition, and Exercise with Cancer Progression and PathogenesisAdvanced Science, 2024

  4. 🌿 Preparation, Characterization, and Evaluation of the Antitumor Effect of Kaempferol NanosuspensionsDrug Delivery and Translational Research, 2023

  5. 🐟 High Concentrations of Fluorescent Nanoprobes Delayed Oryzias Melastigma Embryo Hatching by Modulating Respiratory and Metabolic PathwaysVIEW, 2025

  6. 🧲 The Biokinetics and Toxicology of Fe₃O₄ Nanoparticles Influenced by Magnetic Field and ProteinNano, 2022

🧾 Conclusion:

Dr. Junfeng Zhang is a highly suitable and deserving candidate for the Best Researcher Award. His cutting-edge work in nanomedicine, combined with consistent high-impact publications, academic leadership, and contributions to national scientific bodies, clearly mark him as a rising and influential scientist in the medical research community. With slight enhancements in technology translation and international public engagement, he holds potential to become a global leader in biomedical innovation.

Raphaël Rodriguez | Molecular Mechanisms Signaling | Best Researcher Award

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Prof. Raphaël Rodriguez | Molecular Mechanisms Signaling | Best Researcher Award

Prof. Raphaël Rodriguez , CNRS, Institut Curie, France

Raphaël Rodriguez, born October 27, 1978, in Avignon, France, is a pioneering chemical biologist and Research Director at CNRS, Principal Investigator at Institut Curie, and holder of the Skłodowska-Curie Chair of Chemical Biology. A French citizen with two children, Lucía del Mar and Aramis, Rodriguez is renowned for bridging chemistry and biology to unlock the molecular secrets of cancer and inflammation. Trained in the UK under legendary scientists Sir J. E. Baldwin, Sir S. Balasubramanian, and Sir S. P. Jackson, he returned to France to launch groundbreaking research on ferroptosis and metal regulation in cell adaptation. His entrepreneurial and academic excellence earned him numerous accolades, including the National Order of Merit. With more than 130 publications and several successful biotech ventures, Rodriguez continues to shape the future of medical science with bioactive molecules like Ironomycin and Pyridostatin. He is an editorial board member, reviewer, teacher, and a public voice on science.

Publication Profile:

Google Scholar

✅ Strengths for the Award:

  1. Pioneering Scientific Impact:
    Dr. Rodriguez has contributed over 130 high-impact publications in top-tier journals like Nature, Science, JACS, Nature Chemistry, and Cell Metabolism. His work has helped define ferroptosis, a form of programmed cell death, and metal regulation in cancer—a game-changing area in molecular medicine.

  2. Innovation & Translation:
    He discovered and commercialized small molecules such as Pyridostatin, Ironomycin, and Supformin, directly impacting both science and therapeutics. His work bridges fundamental science and drug discovery.

  3. Leadership & Mentorship:
    From mentoring under renowned scientists to leading his own lab at Institut Curie, he has shaped France’s next generation of researchers in chemical biology.

  4. Recognition & Awards:
    His extensive list of prestigious awards, including the CNRS Silver Medal, Liliane Bettencourt Prize, and Knight of the National Order of Merit, reflect peer recognition on national and international levels.

  5. Entrepreneurship:
    As a co-founder of biotech companies (e.g., Adrestia Therapeutics, later acquired), he has demonstrated a rare capacity to translate discoveries into clinical and commercial value.

  6. Scientific Influence:
    Editorial board memberships and frequent invitations to over 160 major conferences show his reputation as a global thought leader in his field.

🔧 Areas for Improvement:

  1. Public Engagement Scaling:
    Although Dr. Rodriguez is active in media (radio, TV, print), expanding international science outreach (e.g., global science festivals, public lectures, social media presence) could help further democratize his scientific message.

  2. Clinical Translation:
    While several molecules from his lab are commercialized, more direct clinical trials or FDA approvals tied to his molecules would elevate his impact from bench to bedside.

  3. Collaborative Diversity:
    Encouraging more global South collaborations or mentorships could help broaden his lab’s international footprint and contribute to equitable science capacity building.

🎓 Education:

Raphaël Rodriguez’s academic journey is marked by elite training and impactful credentials across Europe. He earned his PhD in Chemistry (2002–2005) through a joint program between Marseille and Oxford. He then pursued postdoctoral research as a Senior Research Associate at Cambridge’s Department of Chemistry and Gurdon Institute (2005–2012), where he developed skills at the interface of chemistry and biology. In 2012, he obtained the prestigious Habilitation à Diriger des Recherches from the University of Paris-Saclay, enabling him to supervise PhD candidates and lead independent research. His rise through the academic ranks was rapid: he became a CNRS Group Leader in 2012, then Principal Investigator at Institut Curie in 2015. In 2017, he was promoted to Research Director (DR1) at CNRS. In 2020, he was awarded the Skłodowska-Curie Chair of Chemical Biology at Institut Curie. His interdisciplinary training under world-renowned mentors has uniquely positioned him at the forefront of chemical biology research.

💼 Experience:

Raphaël Rodriguez’s professional experience is a blend of high-level research, leadership, and innovation. He began his postdoctoral career at the University of Cambridge (2005–2012), working in the Department of Chemistry and the Gurdon Institute. In 2012, he became a CNRS Group Leader at ICSN, Gif-sur-Yvette, launching his independent research career. In 2015, he transitioned to Institut Curie as a Principal Investigator, where he deepened his focus on cancer and inflammation. His promotion to Research Director (DR1) at CNRS in 2017 reflects his impact and leadership. Awarded the Skłodowska-Curie Chair of Chemical Biology in 2020, Rodriguez oversees a productive lab that investigates ferroptosis, DNA structure, and metal ion regulation in disease. He is also an entrepreneur, co-founding Adrestia Therapeutics and OrbiThera. He teaches at PSL University, organizes international conferences, and contributes to editorial boards and scientific advisory boards worldwide, maintaining a strong presence in both academia and biotech.

🏆 Awards and Honors:

Raphaël Rodriguez has received an impressive array of honors, showcasing his impact on science and innovation. In 2024 alone, he won the CNRS Silver Medal and the Ligue Contre le Cancer Duquesne Prize. His earlier recognition includes the prestigious Liliane Bettencourt Prize for Life Sciences (2023), the Knight of the National Order of Merit (2022, presented by Nobel Laureate Jean-Marie Lehn), and the Klaus Grohe Prize (2022). He has also been awarded the Antoine Lacassagne Prize (Collège de France, 2019), the Sunrise Cancer Stem Cell Award (2019), the Charles Defforey–Institut de France Prize (2019), and the Tetrahedron Young Investigator Award (2019). Rodriguez is a Fellow of the Royal Society of Chemistry (2018) and won the Pierre Fabre Award for Therapeutic Innovation (2015). These accolades affirm his contributions across cancer research, chemical biology, and molecular therapeutics, as well as his success in translating science into societal benefit through entrepreneurship.

🔍 Research Focus:

Raphaël Rodriguez’s research lies at the cutting edge of chemical biology, with a focus on understanding how cells adapt to stress, particularly in the contexts of cancer and inflammation. His laboratory explores the role of metal ions—especially iron—as regulators of cellular plasticity and fate. Notably, his team discovered mechanisms underlying ferroptosis, a form of regulated cell death linked to iron metabolism, and how this can be exploited for anti-cancer therapies. He also investigates non-canonical DNA structures like G-quadruplexes, using small molecules to study and manipulate gene regulation. His lab has developed and commercialized several potent bioactive compounds, including Pyridostatin, Remodelin, Ironomycin, and Supformin, which are used both as research tools and potential therapeutics. Rodriguez combines molecular design, cell biology, and translational strategies, making his work a blueprint for chemical biology-driven precision medicine. He continues to raise significant research funding and actively collaborates across academia and biotech.

📚 Publications Top Notes:

  1. 🧬 Small-molecule–induced DNA damage identifies alternative DNA structures in human genesNature Chemical Biology

  2. ⚙️ Salinomycin kills cancer stem cells by sequestering iron in lysosomesNature Chemistry

  3. 🛡️ A novel small molecule that alters shelterin integrity and triggers a DNA-damage response at telomeresJACS

  4. 🧫 Chemical inhibition of NAT10 corrects defects of laminopathic cellsScience

  5. 🧠 The transcription factor FOXM1 is a cellular target of the natural product thiostreptonNature Chemistry

  6. 🧪 Trisubstituted isoalloxazines as a new class of G-quadruplex binding ligandsJACS

  7. 🔥 PML-regulated mitochondrial metabolism enhances chemosensitivity in human ovarian cancersCell Metabolism

  8. 🔬 A single-molecule platform for investigation of G-quadruplex interactions with small-molecule ligandsNature Chemistry

  9. 🧲 Small-molecule-mediated G-quadruplex isolation from human cellsNature Chemistry

  10. 🧬 CD44 regulates epigenetic plasticity by mediating iron endocytosisNature Chemistry

  11. 🧷 Selective RNA vs DNA G-Quadruplex Targeting by In Situ Click ChemistryAngewandte Chemie

  12. 🧬 G-Quadruplex-Binding Benzo[a]phenoxazines Down-Regulate c-KIT Expression in Gastric Carcinoma CellsJournal of Medicinal Chemistry

🧾 Conclusion:

Dr. Raphaël Rodriguez exhibits exceptional merit and impact across the entire research ecosystem—fundamental science, innovation, mentorship, and commercialization. His trailblazing work in chemical biology, coupled with a record of scientific leadership and entrepreneurship, makes him highly deserving of the Best Researcher Award. His career reflects a rare blend of depth, vision, and cross-disciplinary innovation. Minor enhancements in global public engagement and clinical integration could further elevate his already stellar profile.