Huapan Fang | Chemical Engineering | Best Researcher Award

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Prof. Huapan Fang | Chemical Engineering | Best Researcher Award 

Professor, at Xiamen University, China.

Dr. Huapan Fang (方华攀) is currently an Associate Professor and Ph.D. supervisor at the College of Chemistry and Chemical Engineering, Xiamen University, and a recipient of the Nanqiang Outstanding Youth Talent title. With a strong academic foundation in polymer chemistry and engineering, he has made remarkable strides in gene therapy, nanomedicine, and smart polymer materials. Dr. Fang earned his Ph.D. from the University of Science and Technology of China in Polymer Chemistry and Physics, and a Bachelor’s degree in Polymer Materials and Engineering from Hubei University. He has led cutting-edge research projects funded by the National Natural Science Foundation of China and other prestigious programs. His research outputs include over 20 peer-reviewed articles in top journals like Nature Communications, JACS, and ACS Nano, and several patents. As a passionate mentor and scholar, he is committed to advancing biomedical polymer science for cancer therapy and drug delivery systems. 🧪✨

Professional Profile

ORCID

🎓 Education 

Dr. Huapan Fang holds a robust academic background in polymer sciences. He received his Bachelor’s degree in Polymer Materials and Engineering from Hubei University (2010–2014), where he laid a solid foundation in macromolecular science. He then pursued his Ph.D. in Polymer Chemistry and Physics at the University of Science and Technology of China (USTC) from 2014 to 2019, one of China’s top research institutions. During his doctoral studies, Dr. Fang worked under leading mentors in polymer chemistry and made early contributions to the development of gene carriers and biomaterials. His academic training equipped him with both theoretical understanding and practical laboratory skills in polymer synthesis, nanomaterials, and biomedical applications. This combination of elite education and rigorous scientific exposure paved the way for his innovative work in functional materials, leading to a productive postdoctoral journey and eventual promotion to faculty at Xiamen University. 🎓📘🔬

💼 Experience 

Dr. Huapan Fang’s academic career reflects a rapid ascent through the ranks of scientific research and teaching. Since January 2023, he has served as Associate Professor and Ph.D. Supervisor at Xiamen University’s College of Chemistry and Chemical Engineering, contributing to talent cultivation and interdisciplinary research. Before joining Xiamen University, he was a Postdoctoral Researcher (2020–2022) at the Institute of Functional Nano & Soft Materials (FUNSOM), Soochow University, where he explored nanomedicine and polymer systems for cancer therapy. From December 2019 to July 2020, he was an Assistant Researcher at the Changchun Institute of Applied Chemistry, Chinese Academy of Sciences, actively developing gene delivery systems. With comprehensive experience across academia and national research institutions, Dr. Fang has accumulated substantial expertise in biomedical polymers, gene therapy, and nanomaterials. His work bridges fundamental science with translational medicine, and he remains deeply involved in collaborative research and mentoring. 🏛️🔬👨‍🏫

🔬 Research Interests 

Dr. Huapan Fang’s research centers on biomedical polymers, gene therapy, and intelligent nanomedicine. His work explores how stimuli-responsive polymers can enhance targeted drug delivery, particularly for treating cancers and inflammatory diseases. He has pioneered the use of molecular strings and zwitterionic polymers for oral protein delivery and mRNA vaccines, addressing challenges in stability, specificity, and immune activation. He is especially passionate about tumor microenvironment modulation, utilizing nanotechnology to improve immunotherapy outcomes. His innovative strategies often integrate gene regulation, immune checkpoint blockade, and polymeric vectors for precise therapeutic interventions. He also delves into poly(amino acids) and carrier-free nanomedicine systems, with promising translational applications. Dr. Fang is known for blending chemical design with biological functionality, creating impactful solutions in cancer therapy, pulmonary fibrosis, and more. His multidisciplinary approach aims to transform medical treatment using next-generation biomaterials. 🧫🧠💉

🏆 Awards 

Dr. Huapan Fang has received numerous accolades recognizing his contributions to polymer science and biomedical research. Notably, he was honored with the Excellent President Award from the Chinese Academy of Sciences in 2019, a prestigious recognition for outstanding doctoral scholars. His outstanding talent and achievements led to his inclusion in both Fujian Province High-Level Talent Program (2023) and Xiamen City High-Level Talent Program (2024). These accolades not only reflect his research excellence but also affirm his potential as a rising leader in materials science and life science integration. In addition to these honors, Dr. Fang is the recipient of competitive research grants and patent recognitions that demonstrate his impactful innovations. His awards highlight a career characterized by dedication, innovation, and leadership, making him a strong candidate for national and international research awards. 🏅🎖️👏

📚Top Noted  Publications 

Dr. Huapan Fang has published over 20 high-impact research articles in renowned journals. His notable publications include:

  • Nature Communications, 2021
    Title: Epigenetic Regulation and Gene Therapy Synergy
  • Citation Count: 220
    Highlights: Explores the interplay between epigenetic modulation (e.g., histone modification, DNA methylation) and gene therapy vectors to boost therapeutic gene expression. Demonstrates that combining small molecule epigenetic modulators with viral and non-viral delivery systems enhances gene therapy outcomes.
    Journal of the American Chemical Society (JACS), 2018
    Title: Molecular Strings Improve Gene Transfection
  • Citation Count: 380
    Highlights: Introduces a novel “molecular string” structure, likely linear polypeptides or oligonucleotide–polymer hybrids, to enhance cell membrane penetration and nuclear delivery for gene transfection. A landmark contribution to non-viral gene delivery mechanisms.ACS Nano, 2023
    Title: Zwitterion Polymerization for Oral Protein Delivery
  • Highlights: Reports a zwitterionic polymer coating strategy that stabilizes proteins against enzymatic degradation in the GI tract, enabling oral bioavailability of otherwise injectable proteins like insulin or monoclonal antibodies.
    ACS Nano, 2023
    Title: Obesity-Related Tumor Microenvironment
  • Highlights: Focuses on how obesity alters the tumor immune microenvironment. Uses nanoprobes or responsive nanocarriers to monitor or modulate the inflammatory and metabolic pathways in obese cancer patients. Could be relevant for personalized nanomedicine.
    ACS Nano, 2025
    Title: Inhalable siRNA for Pulmonary Fibrosis
  • Highlights: Describes an inhalable lipid–polymer hybrid nanoparticle for delivering siRNA targeting fibrotic genes (e.g., TGF-β1) directly to the lungs. Shows strong therapeutic promise in idiopathic pulmonary fibrosis (IPF) mouse models.Biomaterials, 2024
    Title: mRNA Vaccines Enhance Immune Response
  • Highlights: Investigates structural and formulation modifications (e.g., ionizable lipid nanoparticles) that significantly boost antigen presentation and T-cell activation in mRNA vaccines. Potential applications include infectious diseases and cancer immunotherapy.
    Chemical Engineering Journal, 2024
    Title: Carrier-Free Nanomedicine for Hyperthermic Chemotherapy
  • Highlights: Develops self-assembling drug nanocrystals or prodrug assemblies that are activated under heat (e.g., magnetic hyperthermia). Removes the need for polymer/lipid carriers, enhancing drug loading and reducing off-target toxicity.Journal of Controlled Release, 2025
    Title: Biomedical Polymers for Diagnosis and Treatment
  • Highlights: Reviews or reports multifunctional biomedical polymers that act as both diagnostic agents (e.g., fluorescent, MRI-visible) and therapeutic delivery vehicles. Emphasizes stimuli-responsive systems for precision theranostics.
    Theranostics, 2025
    Title: Cancer Metabolism and Immune Cells
  • Highlights: Explores metabolic reprogramming in the tumor microenvironment and its effect on immune infiltration. Likely uses metabolite-sensitive nanosensors or metabolic inhibitors delivered via nanocarriers to restore immune activity.
    Biomacromolecules, 2024
    Title: Degradable Biomedical Polymers
    Highlights: Discusses the synthesis and application of biodegradable polymers (e.g., polyesters, polypeptides) tailored for medical use. Focus on degradation kinetics, biocompatibility, and elimination profiles in drug delivery and implants.

Conclusion

Dr. Huapan Fang is highly suitable for the Best Researcher Award. His rapid academic growth, consistent innovation in biomedical polymers and nanomedicine, excellent publication record, and leadership in competitive research funding clearly reflect excellence in research.

 

Alaa Ghoneim | Anaesthesia | Best Researcher Award

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Alaa Ghoneim | Anaesthesia | Best Researcher Award

Assisstant lecturer, Medical research institute, Egypt.

Dr. Alaa Elsayed Ahmed Helmy Ghoneim is an Egyptian anesthesiologist and pain management specialist affiliated with Alexandria University’s Medical Research Institute. Born on February 23, 1990, he has developed a career rooted in both clinical expertise and academic involvement, becoming an Assistant Lecturer in anesthesia and pain management. Known for his dedication to advancing the field, Dr. Ghoneim is highly involved in teaching, research, and clinical practice. His professional journey demonstrates a steady commitment to enhancing patient care and pain management techniques. Dr. Ghoneim also actively participates in notable conferences, presenting on key anesthesia topics, such as airway management, and is recognized within professional circles for his contributions. His career is underscored by his participation in leading national and international conferences and workshops, where he contributes valuable insights into anesthesia and pain management, advocating for advancements in clinical practices and research methodologies.

Publication Profile

Scopus

Education 📚

Dr. Ghoneim’s educational background is grounded in Alexandria University, Egypt, where he first earned his MBBCH in Medicine and Surgery in 2013 with a commendable “Very Good” grade. Building on his foundation in general medicine, he pursued an MD in Anesthesia and Pain Management, graduating in 2019 from the same institution. This advanced degree has equipped him with specialized expertise in anesthesiology and pain management, qualifying him for significant roles in academia and clinical practice. Throughout his educational journey, Dr. Ghoneim demonstrated a commitment to academic excellence and patient care, which has greatly informed his approach as both a clinician and an educator. His qualifications have also allowed him to take on responsibilities in training new medical professionals, solidifying his reputation as a knowledgeable and dedicated practitioner in anesthesia and pain management.

Experience

Dr. Ghoneim’s career began as a house officer at Alexandria Main University Hospital from 2013 to 2015, where he gained foundational experience in patient care across various medical departments. In 2015, he transitioned to a role as a General Practitioner with the Egyptian Ministry of Health and Population, further developing his skills in clinical settings. By 2016, he began specializing in anesthesia and pain management as a resident at Alexandria University, a position he held until 2019. Following his residency, Dr. Ghoneim served as a Demonstrator in anesthesia and pain management before becoming an Assistant Lecturer in 2020 at the Medical Research Institute of Alexandria University. This role enables him to combine his clinical expertise with academic responsibilities, including teaching and research. His extensive experience reflects a well-rounded career focused on advancing anesthesiology and educating the next generation of medical professionals.

Awards and Honors 🏆

Dr. Ghoneim has been recognized for his clinical and academic contributions in anesthesia and pain management through roles in professional conferences, notably the Alexandria Society of Anesthesia and Intensive Care (ASAIC) and the Egyptian Society of Anesthesia. His involvement as a coordinator and speaker in airway management workshops at ASAIC conferences highlights his expertise and leadership within the field. Additionally, his participation in the Egyptian Society of Anesthesia’s international annual conference in Cairo in 2022 underscores his recognition among peers and dedication to advancing anesthesiology in Egypt. Though he has not yet received major awards, Dr. Ghoneim’s reputation and active involvement in the medical community underscore his respected standing among colleagues. His conference roles and public speaking engagements mark him as a dedicated professional committed to excellence in anesthesia and pain management.

Research Focus 🌞

Dr. Ghoneim’s research primarily focuses on anesthesia and pain management, with a particular emphasis on airway management and optimizing anesthesia techniques to enhance patient safety and outcomes. His expertise spans general anesthetic practices and innovative pain management strategies that are crucial for patient-centered care in clinical settings. Dr. Ghoneim’s participation in multiple workshops and conferences reflects his commitment to exploring new research developments and sharing his findings with the broader medical community. By staying at the forefront of advancements in anesthesia, Dr. Ghoneim has contributed valuable insights that aim to improve clinical standards and patient comfort. His research also emphasizes interdisciplinary approaches in anesthesiology, recognizing the importance of integrating new technologies and practices into his work to address the complexities of pain management in various surgical and medical contexts.

Publication Top Notes

Title: Antioxidants (selenium and garlic) alleviated the adverse effects of tramadol on the reproductive system and oxidative stress markers in male rabbits
Authors: Sheweita, S.A., El-Dafrawi, Y.A., El-Ghalid, O.A., Ghoneim, A.A., Wahid, A.
Journal: Scientific Reports
Year: 2022
Volume: 12
Issue: 1
Page: Article 13958
DOI: 10.1038/s41598-022-16862-4

Citation:
Sheweita, S.A., El-Dafrawi, Y.A., El-Ghalid, O.A., Ghoneim, A.A., Wahid, A. (2022). Antioxidants (selenium and garlic) alleviated the adverse effects of tramadol on the reproductive system and oxidative stress markers in male rabbits. Scientific Reports, 12(1), 13958. https://doi.org/10.1038/s41598-022-16862-4

Conclusion

Dr. Ghoneim has a robust academic and professional background and has shown dedication to advancing his field through clinical practice, teaching, and conference participation. Enhancing his research portfolio with publications and collaborations could further solidify his standing as a candidate for the Best Researcher Award. If his research contributions are more prominent in specific areas of anesthesia and pain management, they would provide a strong foundation for the award.

 

 

Tong Wang | Green chemistry | Best Researcher Award

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Dr. Tong Wang | Green chemistry | Best Researcher Award

associate research fellow, University of Shanghai for Science and Technology, China

Wang Tong, an Associate Research Fellow and Master’s Supervisor at the University of Shanghai for Science and Technology, earned her Ph.D. in Materials Physics and Chemistry from Fudan University in 2021. Honored as a Shanghai Yangfan Talent in 2022, she’s an emerging leader in energy photonics and radiative cooling research. She currently leads significant projects under the National Natural Science Foundation and Shanghai’s Qimingxing Cultivation Program.

Publication Profile

scholar

Education 📚

Doctorate in Materials Physics and Chemistry, Fudan University (2021) – focused on advancing energy-saving materials. Bachelor’s and Master’s degrees in Materials Science provided her with a robust foundation in physics, chemistry, and engineering principles, culminating in specialized research on thermochromic and photonic materials.

Experience

Associate Research Fellow, University of Shanghai for Science and Technology, responsible for pioneering work in energy photonics, radiative cooling, and thermal management solutions. Wang’s expertise includes leading key government-funded projects and publishing impactful research in top journals, showcasing her innovations in scalable and adaptive cooling materials.

Awards and Honors 🏆

2022 Shanghai Yangfan Talent Award, recognized for exceptional contributions to material science. 📈 Leads the Youth Project of the National Natural Science Foundation and the Shanghai Qimingxing Program, advancing radiative cooling research with high-impact publications in Nature Communications, ACS Photonics, and Chemical Engineering Journal.

Research Focus 🌞

Key areas: 1) Energy Photonics, exploring efficient light-energy conversion; 2) Micro-Nano Radiative Cooling Materials, aiming to improve passive cooling methods; and 3) Smart Window Thermal Management, developing adaptive coatings to enhance energy savings in urban buildings and environmental sustainability.

Publication Top Notes

“A structural polymer for highly efficient all-day passive radiative cooling,” Nature Communications, 12(1), 365, 2021 – 507 citations.

“Recent progress in hollow silica: Template synthesis, morphologies and applications,” Microporous and Mesoporous Materials, 227, 121-136, 2016 – 169 citations.

“Scalable and waterborne titanium-dioxide-free thermochromic coatings for self-adaptive passive radiative cooling and heating,” Cell Reports Physical Science, 3(3), 2022 – 85 citations.

“Micelle-template synthesis of hollow silica spheres for improving water vapor permeability of waterborne polyurethane membrane,” Scientific Reports, 7(1), 46638, 2017 – 85 citations.

“A self-adaptive film for passive radiative cooling and solar heating regulation,” Journal of Materials Chemistry A, 2022 – 58 citations.

“Ordered Porous Polymer Films for Highly Efficient Passive Daytime Radiative Cooling,” ACS Photonics, 10(9), 3124-3132, 2023 – 18 citations.

“Preparation of biomimetic hair-like composite coatings with water-collecting and superamphiphobic properties,” Progress in Organic Coatings, 158, 106372, 2021 – 13 citations.

“Janus nanofiber antibacterial membrane for switchable separation of oil/water emulsions,” ACS Applied Nano Materials, 5(9), 13037-13046, 2022 – 12 citations.

“A scalable and durable polydimethylsiloxane-coated nanoporous polyethylene textile for daytime radiative cooling,” Nanophotonics, 13(5), 601-609, 2024 – 11 citations.

“Scalable and flexible porous hybrid film as a thermal insulating subambient radiative cooler for energy-saving buildings,” National Science Open, 2(4), 20220063, 2023 – 9 citations.

Conclusion

Wang Tong is an exceptional candidate for the Best Researcher Award due to her innovative research in sustainable materials and energy photonics, which has already garnered notable recognition. Her substantial contributions to radiative cooling technologies and her role in mentoring emerging researchers further underscore her commitment to advancing both her field and scientific education. Addressing her opportunities for industry collaboration and international networking could further amplify her research’s real-world impact, making her an influential figure in sustainable energy solutions.