Willa Hsueh | Immunometabolism | Best Researcher Award

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Prof. Willa Hsueh | Immunometabolism | Best Researcher Award

The Ohio State University | United States

Dr. Willa Hsueh is a leading researcher in endocrinology, diabetes, and metabolism, with a career spanning several decades of pioneering contributions to hormone regulation and metabolic disease. Her early research provided key insights into renin biochemistry and aldosterone metabolism, particularly focusing on inactive “big renin” forms and their activation mechanisms in normal and pathological conditions such as diabetic nephropathy. Dr. Hsueh’s investigations have significantly advanced the understanding of the renin-angiotensin-aldosterone system (RAAS) and its role in blood pressure regulation, sodium balance, and endocrine disorders. Her studies explored adrenal physiology, steroid metabolism, and hormonal responses to physiological and pharmacological stimuli, laying the groundwork for later research on cardiovascular and metabolic dysfunctions in diabetes. Through her interdisciplinary approach combining endocrinology, nephrology, and metabolism, she has elucidated biochemical pathways linking hormonal imbalances to metabolic diseases. Dr. Hsueh continues to lead impactful research in diabetes and metabolic regulation, contributing to translational advancements that bridge molecular mechanisms with clinical applications for improved patient outcomes in endocrine and metabolic disorders.

Profiles: Scopus | Orcid

Featured Publications:

Hsueh, W. A., Boonjaren, S., Stein, J., Baehler, H. R., Osgood, R. W., Cohen, S., Yashon, D., & Ferris, T. (1974). Effect of plasma sodium concentration on diluting segment sodium reabsorption. Kidney International, 5(1), 1–11.

Johnson, K. R., Hsueh, W. A., Glusman, S. M., & Arnett, F. C. (1976). Fibrous myopathy: A rheumatic complication of drug abuse. Arthritis & Rheumatism, 19(5), 923–926.

Hsueh, W. A., & Hsu, T. H. (1978). Thyrotoxicosis in a patient with secondary hypothyroidism. Southern Medical Journal, 71(9), 1174–1177.

Hsueh, W. A., Luetscher, J. A., Carlson, E., & Grislis, G. (1978). Big renin in plasma of healthy subjects on high-sodium intake. The Lancet, 1(8077), 1281–1284.

Hsueh, W. A., Hsu, T. H., & Federman, D. D. (1978). Endocrine features of Klinefelter’s syndrome. Medicine, 57(5), 447–461.

Hsueh, W. A., Luetscher, J. A., Carlson, E., Grislis, G., Elbaum, D., & Chavarri, M. (1978). A comparison of cold and acid activation of big renin and of inactive renin in normal plasma. Journal of Clinical Endocrinology and Metabolism, 47(4), 792–799.

Rosa M Giraldez-Perez | Intracellular Transport Systems | Innovative Research Award

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Prof. Dr. Rosa M Giraldez-Perez | Intracellular Transport Systems | Innovative Research Award

University or Cordoba | Spain

Rosa María Giráldez-Pérez is a researcher in the fields of nanotechnology, nanomedicine, physiology, and neuroscience whose scientific contributions focus on the design and application of nanomaterials for therapeutic purposes. Her work has addressed innovative strategies such as gold nanosystems functionalized with antibiotics or anticancer drugs, the development of nanocarriers for leukemia, prostate, liver, and lung cancer treatments, as well as nanoparticle-based approaches to prevent antibiotic resistance. She has also contributed to research in obesity therapy through nanosystems targeting metabolic regulation and in neuroscience through studies on oxidative stress and fragile X syndrome. Her research output includes 81 scientific documents, which have accumulated 911 citations and reflect an h-index of 13, demonstrating both productivity and impact in her field. A significant portion of her publications are in high-impact journals indexed in the Journal Citation Reports (JCR), and several list her as first or senior author, highlighting her leading role in collaborative projects. By integrating expertise from cellular biology, physiology, and nanoscience, her work advances translational biomedical research and offers potential therapeutic solutions for cancer, infectious diseases, metabolic disorders, and neurological conditions.

Profiles: Orcid | Scopus

Featured Publications:

Giráldez-Pérez, R. M., Grueso, E. M., Montero-Hidalgo, A. J., Muriana-Fernández, C., Kuliszewska, E., Luque, R. M., & Prado-Gotor, R. (2025). Daunomycin nanocarriers with high therapeutic payload for the treatment of childhood leukemia. Pharmaceutics, 17(9), 1236.

De Diego-Otero, Y., El Bekay, R., García-Guirado, F., Sánchez-Salido, L., & Giráldez-Pérez, R. M. (2024). Apocynin, a selective NADPH oxidase (Nox2) inhibitor, ameliorates behavioural and learning deficits in the fragile X syndrome mouse model. Biomedicines, 12(2887).

Lhamyani, S., Gentile, A. M., Mengual-Mesa, M., Grueso, E., Giráldez-Pérez, R. M., Fernandez-Garcia, J. C., … El Bekay, R. (2024). Au@16-pH-16/miR-21 mimic nanosystem: An efficient treatment for obesity through browning and thermogenesis induction. Biomedicine & Pharmacotherapy, 171, 116104.

Giráldez-Pérez, R. M., Grueso-Molina, E. M., Carbonero-Martínez, A., Álvarezmárquez, J., Kuliszewska, E., Gordillo-Macías, M., & Prado-Gotor, R. (2023). Synergistic antibacterial effects of amoxicillin and gold nanoparticles: A therapeutic option to combat antibiotic resistance. Antibiotics, 12(8), 81275.

Giráldez-Pérez, R. M., Grueso, E., Montero-Hidalgo, A. J., Luque, R. M., Carnerero, J. M., Kuliszewska, E., & Prado-Gotor, R. (2022). Gold nanosystems covered with doxorubicin/DNA complexes: A therapeutic target for prostate and liver cancer. International Journal of Molecular Sciences, 23(24), 15575.

Giráldez-Pérez, R. M., Grueso, E. M., Jiménez-Aguayo, R., Carbonero, A., González-Bravo, M., Kuliszewska, E., & Prado-Gotor, R. (2022). Use of nanoparticles to prevent resistance to antibiotics: Synthesis and characterization of gold nanosystems based on tetracycline. Pharmaceutics, 14(9), 1941.

Lhamyani, S., Gentile, A. M., Giráldez-Pérez, R. M., et al. (2021). miR-21 mimic blocks obesity in mice: A novel therapeutic option. Molecular Therapy – Nucleic Acids, 26, 401–416. h

Grueso-Molina, E. M., Giráldez-Pérez, R. M., Kuliszewska, E., Guerrero, J. A., & Prado-Gotor, R. (2021). Reversible cationic gemini surfactant-induced aggregation of anionic gold nanoparticles for sensing biomolecules. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 610, 125893.

Gomes, A., Carnerero-Panduro, J. M., Jiménez-Ruiz, A., Grueso-Molina, E. M., Giráldez-Pérez, R. M., & Prado-Gotor, R. (2021). Lysozyme-AuNPs interactions: Determination of binding free energy. Nanomaterials, 11(8), 2139.

Giráldez-Pérez, R. M., Grueso-Molina, E. M., Domínguez-García, I., Pastor-Carrillo, N. M., Kuliszewska, E., & Prado-Gotor, R. (2021). Biocompatible DNA/5-fluorouracil gemini surfactant-functionalized gold nanoparticles as promising vectors in lung cancer therapy. Pharmaceutics, 13(3), 423.

Emine Mine Soylu | Plant Pathology | Best Researcher Award

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Prof. Dr. Emine Mine Soylu | Plant Pathology | Best Researcher Award

Hatay Mustafa Kemal University | Turkey

Prof. Dr. Emine Mine Soylu is a prominent academic in the field of plant pathology, with a career spanning over three decades dedicated to plant protection, host-pathogen interactions, and disease management strategies in crops. She began her professional journey as a Research Assistant at Akdeniz University and has since contributed significantly to scientific research through both experimental studies and scholarly publications. Her work is widely recognized, with a particular focus on the identification and control of fungal and bacterial diseases in economically important plants. Prof. Soylu has published 54 scientific documents in internationally refereed journals and has amassed a total of 3,749 citations, reflecting the substantial impact of her work in the field. Her h-index is 25, indicating consistent and high-quality contributions to science over the years. Her research includes first reports of various plant diseases in Türkiye and in-depth studies on disease resistance mechanisms and biochemical plant responses. Prof. Soylu’s contributions continue to shape the future of sustainable agriculture and plant health, and her collaborations extend across national and international scientific communities. Her scholarly output and citation metrics demonstrate her strong influence in the field of phytopathology and plant-microbe interactions.

Profiles: Google Scholar | ScopusOrcid

Featured Publications:

  • “Preliminary Characterization of Race-Specific Elicitors From Peronospora parasitica and Its Ability to Elicit Phenolic Accumulation in Arabidopsis”

  • “First Report of Downy Leaf Spot of Walnuts Caused by Microstroma juglandis in Turkey”

  • “Induction of Disease Resistance by the Plant Activator, Acibenzolar-S-methyl (ASM), Against Bacterial Canker (Clavibacter michiganensis subsp. michiganensis) in Tomato Seedlings”

  • “First Report of Powdery Mildew Caused by Erysiphe heraclei on Dill (Anethum graveolens) in Turkey”

  • “Light and Electron Microscopy of the Compatible Interaction Between Arabidopsis and the Downy Mildew Pathogen Peronospora parasitica”

  • “Induction of Defence Related Enzymes and Resistance by the Plant Activator Acibenzolar-S-methyl in Tomato Seedlings Against Bacterial Canker Caused by Clavibacter michiganensis subsp. michiganensis”

  • “First Report of Cercospora Leaf Spot on Swiss Chard Caused by Cercospora beticola in Turkey”

  • “First Report of Phloeospora Leaf Spot on Mulberry Caused by Phloeospora maculans (=Cylindrosporium maculans) in the Eastern Mediterranean Region of Turkey”

  • “Induction of Disease Resistance and Antioxidant Enzymes by Acibenzolar-S-methyl Against Bacterial Canker (Clavibacter michiganensis subsp. michiganensis) in Tomato”

  • “First Report of Powdery Mildew Caused by Podosphaera phaseoli (syn. Sphaerotheca phaseoli) on Cowpea (Vigna sinensis) in Turkey”

 

 

 

 

 

 

 

 

 

 

Abdolraouf Samadi-Maybodi | Molecular Mechanisms Signaling | Best Researcher Award

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Prof. Abdolraouf Samadi-Maybodi | Molecular Mechanisms Signaling | Best Researcher Award

Prof. Abdolraouf Samadi-Maybodi | University of Mazandaran | Iran

Dr. Abdolraouf Samadi-Maybodi is a distinguished Iranian chemist and professor at the University of Mazandaran, Babolsar, Iran. He has played a pivotal role in advancing the field of inorganic and analytical chemistry, particularly through his work in NMR spectroscopy, zeolite synthesis, and nanomaterials. Over a career spanning more than three decades, Dr. Samadi-Maybodi has held various academic positions including Assistant Professor, Associate Professor, and Professor. He has published over 107 research papers in peer-reviewed journals and actively collaborates with international scholars. A member of prestigious societies like the American Chemical Society (ACS), Royal Society of Chemistry (RSC), and Iranian Society of Chemistry, he is recognized for his interdisciplinary contributions that bridge classical chemistry with modern nanotechnology. His leadership roles include serving as Department Head and Research Manager, making him a strong candidate for a Best Researcher Award.

Publication Profile: 

Google Scholar

Education:

Dr. Samadi-Maybodi earned his Ph.D. in Chemistry from the University of Durham, U.K., where he conducted pioneering work on NMR studies of silicate and aluminosilicate solutions under the supervision of Prof. Robin K. Harris. His doctoral thesis, titled “NMR Studies of Silicate and Aluminosilicate Solutions as Precursors for Zeolites,” laid the foundation for much of his later work in zeolite synthesis and spectroscopy. He previously obtained his M.Sc. in Analytical Chemistry  from the University of Mazandaran, Iran, where he explored chemiluminescence of peroxyoxalates under the guidance of Prof. M.R. Hadjmohammadi. His B.Sc. in Chemistry was completed at Shahid Beheshti University, Tehran. This strong academic foundation in both theoretical and applied chemistry has allowed him to integrate classical analytical techniques with modern materials science in his subsequent research.

Experience:

Dr. Samadi-Maybodi has accumulated vast academic experience over nearly four decades. He began his career as a teaching assistant in analytical and instrumental analysis at the University of Mazandaran. He pursued his Ph.D. studies in the UK, followed by a faculty appointment upon his return. His roles at the university include Assistant Professor, Associate Professor, and full Professor from 2008 onwards. He has taught courses across all academic levels, including Advanced NMR Spectroscopy, Thermal Analysis, and Spectroscopic Techniques. His leadership experience includes being Head of the Chemistry Department and Research Manager. He also completed a sabbatical at the University of Western Ontario, Canada. His dedication to teaching, research, and university management demonstrates his holistic contribution to academic science in Iran and abroad.

Research Focus:

Dr. Samadi-Maybodi’s research is deeply rooted in physical and analytical chemistry, with a specialized focus on Nuclear Magnetic Resonance (NMR) spectroscopy for studying silicate and aluminosilicate systems. He is renowned for applying advanced spectroscopic techniques to investigate zeolite formation mechanisms, chemical structures, and solution dynamics. His interest in nanomaterials has led to significant contributions in quantum dots, fluorescence spectroscopy, and photocatalysis. More recently, his work has expanded into environmental chemistry, particularly in the development of novel nanostructured materials for water treatment and pesticide removal. His interdisciplinary approach bridges traditional analytical methods with cutting-edge materials science, resulting in applications across catalysis, environmental cleanup, and energy systems. With over 100 publications, Dr. Samadi-Maybodi continues to make impactful contributions to both fundamental science and applied technologies, maintaining active collaborations with leading researchers worldwide.

Publications Top Notes: 

  1. A new silicate clathrate hydrate: X-ray and NMR study with octameric silicate anions – JSSC

  2. Exchange reactions in aluminosilicate solutions – Chem. Comm.

  3. XRD and NMR study of silicate with nitrogenous cations – Dalton Trans.,

  4. Aluminum incorporation into silicates via 27Al NMR – Zeolites

  5. Discovery of a novel symmetric silicate anion – Dalton Trans.

  6. New oscillating chemiluminescence system with tetraalkylammonium hydroxide – ISBC

  7. Highly resolved 27Al NMR of aluminosilicates – Dalton Trans.

  8. 29Si NMR of methoxysilicic acid in silicate solutions – Mag. Res. Chem.

  9. 29Si DOSY NMR for aqueous silicate studies – Chem. Comm.

  10. Headspace analysis of male/female kiwifruit flowers – J. Essential Oil Res.

Conclusion:

Prof. Abdolraouf Samadi-Maybodi’s research legacy is a testament to decades of scientific dedication, innovation, and academic leadership. His deep-rooted expertise in NMR spectroscopy, silicate chemistry, nanomaterials, and environmental chemistry places him among the leading researchers in his field, especially in Iran and the broader Middle East. His sustained scholarly output, collaborative international engagements, and mentorship of numerous students make him a strong candidate for the Best Researcher Award. With a solid academic foundation, impactful research, and proven administrative skills, Prof. Samadi-Maybodi exemplifies the qualities of a well-rounded and deserving researcher. Recognizing him with this award would not only honor his past contributions but also motivate continued excellence and inspire others in the scientific community.

Subhrajyoti Banerjee | Spinal Cord Injury | Best Researcher Award

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Mr. Subhrajyoti Banerjee | Spinal Cord Injury | Best Researcher Award

Mr. Subhrajyoti Banerjee, Griffith University, Australia

Subhrajyoti Banerjee is a dynamic and interdisciplinary biomedical researcher from West Bengal, India, currently pursuing a Ph.D. in Human Biology at Griffith University, Australia. His academic and research trajectory demonstrates a consistent focus on cutting-edge therapeutics, particularly the use of exosome-based techniques in neuroregeneration and brain cancer diagnostics. Subhrajyoti brings a unique blend of molecular biology, bioengineering, and translational medicine to his work, making notable contributions to both diagnostic and therapeutic research. With multiple international peer-reviewed publications, collaborations with hospitals and biotech labs, and hands-on expertise in nanomedicine and immunotherapy, he has established himself as a rising figure in biomedical science. His strong academic record, combined with impactful research in cancer biology and neurological repair, positions him as a promising candidate for significant contributions to global healthcare innovation.

Publication Profile: 

Google Scholar

Orcid

Strengths for the Award:

  1. Interdisciplinary Expertise: Subhrajyoti has deep knowledge in biotechnology, biomedical engineering, and molecular biology, spanning diagnostics, therapeutics, and regenerative medicine.

  2. Cutting-Edge Research: His research on exosomes for brain cancer diagnosis and cell-free therapies using glial extracellular vesicles aligns with global priorities in personalized and non-invasive medicine.

  3. Strong Publication Record: He has multiple peer-reviewed publications, including articles in journals like Extracellular Vesicle, Synlett, and Chemistry – A European Journal.

  4. Hands-on Technical Proficiency: Skilled in molecular biology (PCR, ELISA), bioinformatics (NGS, mutagenesis), nanotechnology, and in-silico drug development.

  5. Academic Excellence: Consistently high CGPAs in all degrees (up to 9.4/10), with top performance in national-level exams like GATE (2020 & 2024).

  6. Early Research Maturity: Significant achievements already at the pre-doctoral and early Ph.D. stage, with collaboration across institutes and real-world applications.

🛠️ Areas for Improvement:

  1. Patent Filing and Commercial Translation: While the research is innovative, translating it into patents, startups, or licensed technologies would amplify real-world impact.

  2. International Collaborations: Though currently pursuing a PhD abroad, broader international co-authorship or research consortium involvement could strengthen global outreach.

  3. Leadership Roles: Opportunities to mentor junior researchers or lead funded projects would further demonstrate leadership potential in the scientific community.

🎓 Education:

Subhrajyoti Banerjee’s academic journey reflects an unwavering commitment to biomedical innovation. He is currently enrolled in a Ph.D. program in Human Biology at Griffith University (2025–Present), focusing on therapeutic applications of olfactory glial extracellular vesicles. He earned his Master of Technology in Biomedical Engineering (2022–2024) from IIEST Shibpur, achieving an outstanding CGPA of 9.4 and conducting research on exosome-based early diagnostics for brain cancer. Prior to this, he completed an M.Sc. in Biotechnology (2018–2020) from Techno India University with a CGPA of 9.01, where he explored antibody mimetics in cancer immunotherapy. His undergraduate studies in Biotechnology (2015–2018) at MAKAUT gave him a strong foundation in genetic engineering, molecular biology, and medical biotechnology. His academic path illustrates both breadth and depth across biomedical disciplines, from basic science to clinical translation.

💼 Professional Experience:

Subhrajyoti’s professional experience is deeply rooted in interdisciplinary biomedical research. As an M.Tech researcher at IIEST (2022–2024), he led projects involving nanoparticle-based theragnostics and collaborated with medical institutions for brain cancer diagnostics. His innovative work involved synthesizing electromagnetic and autofluorescent nanoparticles for tumor detection. Previously, he served as a Research Assistant and Teaching Aid (2019–2020) at Techno India University, where he contributed to cancer immunotherapy studies under Dr. Malavika Bhattacharya. His skills encompass both in-silico and in-vitro techniques, including ELISA, flow cytometry, cell culture, and computational modeling. Additionally, he has coordinated sample collection with hospitals and performed biomarker analysis for exosomal studies. This hands-on lab experience, combined with translational research initiatives, underscores his ability to bridge the gap between laboratory innovation and real-world medical application.

🏅 Awards & Honors:

Subhrajyoti Banerjee has received multiple recognitions highlighting his academic excellence and research potential. He qualified in GATE 2024 and GATE 2020, two of India’s most competitive national-level examinations, affirming his expertise in engineering and life sciences. His work was honored with the 1st Prize for Poster Presentation at the BIRAC 5th Annual Symposium in 2020, reflecting innovation in translational biotech. He also presented at the 4th Regional Science & Technology Congress (2020) and university-level symposia, showcasing his work in both diagnostics and therapeutic biotechnology. These accolades illustrate his proactive engagement with the academic and scientific community. His contributions in nanomedicine, exosome biology, and bioinformatics make him a strong contender for research-based recognitions.

🔬 Research Focus:

Subhrajyoti Banerjee’s research centers on exosome-based diagnostics and therapeutics, with a deep emphasis on brain cancer and neuroregeneration. His ongoing Ph.D. explores olfactory glia-derived extracellular vesicles for cell-free, regenerative therapies. He previously developed liquid biopsy approaches using exosomal biomarkers for early detection of glioblastoma. His expertise spans nanoparticle engineering, molecular docking, antibody mimetics, and cell-line studies, aiming to bridge lab research with clinical solutions. Subhrajyoti’s interdisciplinary approach draws from molecular biology, pharmacology, and bioinformatics, positioning his work at the forefront of personalized medicine and neuro-oncology. His commitment to translational science is evident through multi-institutional collaborations and his ability to apply emerging technologies like NGS, spectroscopy, and computational biology for solving real-world medical problems.

📚 Publications Top Notes:

  1. 🧠 Exploring emerging concepts of exosomes for brain cancer diagnosis and therapeuticsExtracellular Vesicle (2024)

  2. 🏥 Internet of Medical Things and Healthcare 4.0: Trends and future directionsJEEEMI (2024)

  3. ⚗️ Reaction under Ball-Milling: Solvent- and Metal-Free Synthesis of Tetrahydroquinoline DerivativesSynlett (2024)

  4. 🧪 Room temperature palladium-catalyzed synthesis of unsymmetrical diamide scaffoldsJournal of Molecular Structure (2024)

  5. 🍋 Comparative study of therapeutic properties of lemonsInternational Journal of Herbal Medicine (2023)

  6. 🔬 Reusable Iron-Copper Catalyzed Cross-Coupling for N-ArylamidesChemistry – A European Journal (2025)

  7. 💻 Computational Design of Antibody Mimetics for Enhanced Cancer ImmunotherapyTechno India University (2020)

  8. 🧬 Antibody Mimetic for Immunotherapy Against CancerUniversity Dissertation (2019)

🔍 Conclusion:

Subhrajyoti Banerjee exhibits all the hallmarks of a rising star in biomedical research: a strong foundation in theory, excellence in lab techniques, impactful research on exosomes and nanomedicine, and a forward-thinking approach to cancer diagnostics and therapeutics.

His ability to navigate between basic science and translational application, and a growing international profile with Griffith University, makes him a highly suitable candidate for the Best Researcher Award. With continued focus on innovation and scientific leadership, he is well-positioned to become a significant contributor to the global biomedical research community.

Zhi Guo | Stem Cell Research | Best Researcher Award

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Prof. Dr Zhi Guo | Stem Cell Research | Best Researcher Award

Prof. Dr Zhi Guo | Department of Hematology, Huazhong University of Science and Technology Union Shenzhen Hospital | China

Dr. Zhi Guo is a distinguished expert in hematology with over 25 years of clinical and academic experience. Currently serving as Director, Academic Leader, Chief Physician, and Professor at the Department of Hematology, Huazhong University of Science and Technology Union Shenzhen Hospital, he has been instrumental in advancing hematologic malignancy treatments in China. With extensive expertise in hematopoietic stem cell transplantation, Dr. Guo has successfully performed more than 1,300 transplant cases. He began his career at the PLA Army General Hospital, serving there for nearly two decades before transitioning to his current role. A prolific researcher, he has authored over 10 peer-reviewed publications and five books, contributing substantially to the understanding of CAR-T therapy, gut microbiota, and transplantation immunology. He is an active member of major national and international hematology associations and plays a vital role in formulating clinical consensus and guidelines in China.

publication profile:

Scopus

Strengths for the Award:

Dr. Zhi Guo exemplifies the qualities of an outstanding medical researcher and clinician. With nearly 25 years of clinical experience in hematology and over 20 years in hematopoietic stem cell transplantation, he stands out as a national leader in this field. His performance of more than 1,300 transplants, along with a strong academic footprint, including 10 SCI-indexed publications in 2024–2025, demonstrates both depth and innovation in his research. He has also contributed to national expert consensus and clinical guidelines, particularly in CAR-T therapy and intestinal microecology. Dr. Guo’s leadership roles across national academic committees and his active membership in the American Society of Hematology further highlight his international impact and collaborative influence.

Areas for Improvement:

While Dr. Guo’s achievements in clinical practice and research are significant, opportunities exist to increase global visibility by expanding his research collaborations internationally and publishing in higher-impact journals beyond regional scopes. Additionally, while five books have been authored, the addition of patents or translational innovations could enhance his profile in the realm of research commercialization and practical medical technologies.

Education :

Dr. Zhi Guo holds a strong academic background in clinical medicine and medical research. He earned his Bachelor’s degree in Medicine from Tongji Medical College in 2000. Subsequently, he pursued his postgraduate medical studies at the Third Military Medical University, completing it in 2007. His academic journey culminated with the attainment of a Doctor of Medicine (MD) degree from Wuhan University of Science and Technology. His education laid a strong foundation in hematology and clinical research methodologies. Each step in his educational path was marked by an emphasis on academic rigor and clinical competence, preparing him for a leadership role in medical science and hematologic research. His multidisciplinary background has enabled him to integrate clinical insights with advanced laboratory-based innovations, contributing to national-level guidelines and the development of cutting-edge CAR-T cell therapies and transplantation techniques.

Experience :

Dr. Zhi Guo brings nearly 25 years of clinical, academic, and leadership experience in the field of hematology. He began his professional journey at the PLA Army General Hospital, where he served from 2000 to 2018. During this period, he honed his clinical and procedural expertise in managing complex hematologic disorders. Since 2018, he has been leading the Department of Hematology at Huazhong University of Science and Technology Union Shenzhen Hospital as Director, Academic Leader, and Chief Physician. His rich experience includes more than 1,300 hematopoietic stem cell transplantations, encompassing autologous, allogeneic, and CAR-T integrated therapies. His leadership extends beyond clinical care, as he also mentors postgraduate medical students and leads multiple national and institutional research projects. Dr. Guo’s practical experience is balanced with his strategic contributions to medical consensus formulation and research-driven policy initiatives in cancer and immune-hematological disorders.

Research Focus :

Dr. Zhi Guo’s research centers on hematologic malignancies and hematopoietic stem cell transplantation, particularly the integration of cellular immunotherapy such as CAR-T cell treatments. His recent work includes pioneering anti-CD19, anti-CD7, and anti-BCMA CAR-T therapies for lymphomas and leukemias. Additionally, he has investigated the interplay between microbiota and immune modulation in transplantation, highlighting the role of gut and oral microbiomes in patient outcomes. His contributions have influenced the development of clinical guidelines for microbiota-related diagnostics and treatments in oncology. With more than 10 high-impact journal publications and ongoing projects in translational medicine, Dr. Guo’s work combines laboratory innovation with patient-centered applications. He has also authored expert consensus documents and national guidelines, helping shape China’s hematology and transplantation protocols. His commitment to interdisciplinary collaboration, clinical innovation, and translational research underscores his leading role in advancing modern hematology.

Publications Top Notes:

  1. 🧬 In vitro validation of anti-CD19 CAR-T cells with LSD1 shRNA for DLBCLFront Immunol, 2025

  2. 🩸 Case of T-ALL treated with chemo + anti-CD7 CAR-T (retroviral vector)Front Immunol, 2025

  3. 👶 Shaping oral/intestinal microbiota & immunity in first 1,000 days of lifeFront Pediatr, 2025

  4. 💩 Fecal microbiota transplantation in acute GVHD treatmentJ Cancer Res Ther, 2024

  5. 🔬 Chinese consensus on gut microecology lab standardsExp Ther Med, 2024

  6. 🧪 2024 Chinese guidelines for intestinal microecology in cancerJ Cancer Res Ther, 2024

  7. 🧫 First MM case treated with ASCT + anti-BCMA CAR-T (retrovirus)Heliyon, 2024

  8. 🧾 Rapid response in relapsed FL to anti-CD19 CAR-T with CMVInt Immunopharmacol, 2024

  9. 🦷 Prognostic impact of oral microbiome in cancer survival – meta-analysisSyst Rev, 2024

  10. 🧍‍⚕️ Expert consensus on gut microbiome & hematopoietic stem cell transplantationClin Transplant, 2024

Conclusion:

In conclusion, Dr. Zhi Guo is highly suitable for the Best Researcher Award. His combination of clinical excellence, academic leadership, and impactful research in hematology and stem cell transplantation positions him among the top contributors in this specialized field. With ongoing research in CAR-T cell therapies, microbiota influence on transplantation, and immuno-oncology, Dr. Guo continues to shape the future of hematologic cancer care. Recognizing his contributions with this award would be both fitting and encouraging for continued innovation in this vital area of medicine.

 

yu chen | Molecular Mechanisms Signaling | Best Researcher Award

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Prof. yu chen | Molecular Mechanisms Signaling | Best Researcher Award

Prof. yu chen , Chengdu University of Technology , China

Prof. Yu Chen is a leading researcher in the field of perovskite solar cells, with a particular emphasis on interfacial engineering and charge transport materials. He is currently a Principal Investigator at the Chengdu University of Technology, College of Materials and Chemistry & Chemical Engineering. His academic journey spans top institutions in China, culminating in a Ph.D. from Nanjing University of Science and Technology under the guidance of Prof. Shenli Zhang and Prof. Wenhua Zhang. Prof. Chen has co-authored numerous high-impact journal articles, including in Nature Communications, Advanced Materials, and Chemical Engineering Journal, significantly contributing to the field of renewable energy. His innovative approaches to improving stability and efficiency in perovskite photovoltaics have earned him national recognition. Prof. Chen’s work blends academic rigor with practical innovation, aiming to push the boundaries of solar cell technologies toward commercial viability and sustainability.

Publication Profile: 

Orcid

✅ Strengths for the Award:

  • High-impact Publications: Prof. Chen has published extensively in top-tier journals such as Nature Communications, Advanced Materials, Angewandte Chemie, and Advanced Functional Materials, indicating global recognition and scientific rigor.

  • Cutting-edge Research Focus: His work on perovskite solar cells, especially on buried interface engineering, inorganic transport layers, and molecular self-assembly, addresses fundamental and applied challenges in next-generation photovoltaic technologies.

  • Innovation & Application: Techniques like guanylation reaction for MACl removal and ion compensation strategies demonstrate a deep understanding of material-device interplay and have direct implications for industrial application.

  • Leadership & Funding: As a Principal Investigator at Chengdu University of Technology, leading national-level projects (e.g., Qomolangma Talent Program), Prof. Chen has proven both scientific leadership and funding competitiveness.

  • International Collaboration: His co-authorship with global leaders such as Prof. Shengzhong Liu and Prof. Wenhua Zhang strengthens his international research presence.

⚠️ Areas for Improvement:

  • Broader Research Diversification: While his specialization in perovskites is a clear strength, expanding into hybrid systems (e.g., tandem solar cells with silicon or organic-inorganic integration) could elevate his interdisciplinary impact.

  • Industry Partnership: Greater collaboration with industrial partners or startups could accelerate the commercial translation of his innovations.

  • International Fellowships or Visiting Positions: Engaging in international academic exchanges or fellowships (e.g., Marie Curie, Humboldt) could further enhance global visibility.

🎓 Education:

Prof. Yu Chen completed his Ph.D. in Materials Science from Nanjing University of Science and Technology (2019–2023) under the supervision of Prof. Shenli Zhang and Prof. Wenhua Zhang. During this period, he focused on advanced interfacial design and ion migration in perovskite solar cells. He earned his M.Eng. in Chemical Engineering from Changzhou University (2016–2019), mentored by Prof. Ningyi Yuan and Prof. Wenhua Zhang, where he laid the foundation for his research on inorganic materials. His academic journey began with a B.Eng. in Materials Science from Pujiang University (2012–2016), under the supervision of Prof. Jian Huang. This strong and progressive academic background empowered Prof. Chen with a multi-scale understanding of materials synthesis, structural engineering, and device-level optimization — skills now central to his research on high-efficiency photovoltaic technologies.

💼 Experience:

Since 2023, Prof. Yu Chen has been serving as a Principal Investigator at Chengdu University of Technology’s College of Materials and Chemistry & Chemical Engineering. He leads a research group focused on developing next-generation perovskite solar cells, emphasizing stable, efficient, and scalable photovoltaic systems. Prof. Chen has developed several novel techniques involving inorganic hole/electron transport layers and interfacial dipole engineering. His experience spans fundamental research, technology translation, and academic collaboration with prestigious researchers such as Prof. Shengzhong Liu and Prof. Yihui Wu. He is also the recipient and presiding investigator of projects like the “Qomolangma Talent Introduction Program” and the Youth Foundation of Sichuan Natural Science Foundation. His role combines leadership, mentorship, and high-level experimental research, making him an influential figure in China’s renewable energy academic landscape.

🏅 Awards and Honors:

Prof. Yu Chen has received several prestigious accolades for his outstanding contributions to solar cell research. In 2019, he was honored with the “Excellent Wall Poster Award” at the China Material Conference, recognizing his innovative visualization of research. In 2023, he earned the title of “Outstanding Graduate” from the China Academy of Engineering Physics, showcasing both his academic excellence and research impact. As the Principal Investigator of prominent research programs such as the Qomolangma Talent Introduction Program, he has demonstrated leadership and vision. His work has been continuously supported by competitive grants, including the Youth Foundation of the Sichuan Natural Science Foundation. These honors reflect not only Prof. Chen’s personal achievements but also his potential to lead transformative advancements in solar energy technologies, particularly in high-efficiency, stable, and scalable perovskite solar cells.

🔬 Research Focus:

Prof. Yu Chen’s research focuses on the design and development of highly efficient and stable perovskite solar cells, with specific expertise in buried interface engineering, inorganic charge transport materials, and defect passivation strategies. His work emphasizes inverted perovskite solar architectures, which promise better long-term stability and commercial adaptability. A key aspect of his research is understanding how molecular self-assembly and interfacial dipole regulation can enhance charge extraction and minimize recombination losses. He has developed novel methods to remove residuals, such as MACl, and form stable 2D perovskite structures in situ, improving device performance. By integrating materials chemistry, device physics, and advanced fabrication, Prof. Chen addresses critical bottlenecks in the field. His research not only advances academic understanding but also aligns with industrial needs for reliable and sustainable photovoltaic technologies.

📚 Publication Top Notes:

  1. 🧪 Enlarging moment and regulating orientation of buried interfacial dipole for efficient inverted perovskite solar cellsNature Communications, 2025

  2. ⚗️ High‐Efficiency Perovskite Solar Cells Enabled by Guanylation Reaction for Removing MACl ResidualAngewandte Chemie Int. Ed., 2025

  3. 🧬 Tailoring Buried Interface and Minimizing Energy Loss by Aluminum Glycinate MoleculesAdvanced Materials, 2025

  4. 🧫 A regulation strategy of self-assembly molecules for achieving efficient inverted perovskite solar cellsPCCP, 2024

  5. 🧠 A Comprehensive Review of Organic Hole‐Transporting Materials for Inverted Perovskite Solar CellsAdvanced Functional Materials, 2024

  6. 🔍 Elimination of Buried Interface Defects for Efficient Wide-Bandgap Perovskite Solar CellsChinese Journal of Chemical Physics, 2023

  7. 🧱 Research Progress of Inorganic Hole Transport Materials in Perovskite Solar CellsJournal of Inorganic Materials, 2023

  8. 🔋 Ion Compensation of Buried Interface Enables Efficient MA‐Free Perovskite Solar CellsAdvanced Functional Materials, 2022

  9. 💊 Defect mitigation using d-penicillamine for stable MA-free perovskite solar cellsChemical Science, 2021

  10. ⚙️ Reducing carrier transport barrier in anode interface enables stable inverted mesoscopic perovskite solar cellsChemical Engineering Journal, 2021

🔚 Conclusion:

Prof. Yu Chen stands out as a highly promising and already accomplished materials scientist. His strong academic record, innovative research on energy materials, leadership in national research programs, and consistent output in prestigious journals make him exceptionally qualified for the Best Researcher Award. While early in his career, his trajectory shows the hallmark of a future leader in clean energy research. With minor expansions in scope and outreach, Prof. Chen is poised to become a central figure in advancing sustainable photovoltaic technologies.