SILVIA MARIA DÍAZ PRADO | Drug Delivery Systems | Lifetime achievement Award

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SILVIA MARIA DÍAZ PRADO | Drug Delivery Systems | Lifetime achievement Award

Prof. Dr. SILVIA MARIA DÍAZ PRADO, University of A Coruña, Spain

Prof. Dr. Silvia María Díaz Prado is a Professor of Anatomy at the University of A Coruña and leads the Cellular Therapy and Regenerative Medicine Group at INIBIC. With a PhD in Biology (2004), her research spans tissue engineering, stem cells 🧬 (including iPSCs), novel biomaterials, 3D bioprinting 🖨️, and nanoparticle drug delivery 💊. She has published 68 articles (H-index: 24), 32 book chapters, and presented at 215 conferences. Dr. Díaz Prado has led 33 research projects, supervised over 50 theses, and received 7 research awards 🏅. She coordinates the Master’s in Health Care and Research program.

Publication Profile

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Education

Prof. Dr. Silvia María Díaz Prado 🎓 holds a Ph.D. in Biology (2004) from the University of A Coruña, where she serves as a Professor of Anatomy 🧠 and coordinates the Master’s Degree in Health Care and Research 💉📚. With a distinguished academic career, she has played a pivotal role in shaping advanced medical education and fostering scientific inquiry 🔬. Her dedication to teaching and mentorship has inspired countless students and researchers, reinforcing her status as a respected leader in the biomedical field 🌟. Prof. Dr. Díaz Prado continues to advance excellence in health sciences through education and innovation.

Awards

Prof. Dr. Silvia María Díaz Prado 🏅 has been honored with seven prestigious research awards 🧪, reflecting the high regard in which her scientific contributions are held by the academic community 🌍. These accolades underscore her exceptional merit, dedication to innovation, and impactful work in the field of biomedical research 🧬. Each award stands as a testament to her relentless pursuit of knowledge, excellence, and advancement in science 🔍✨. Prof. Díaz Prado’s achievements not only bring recognition to her individual efforts but also elevate the institutions and research teams she represents, inspiring future generations of scientists 🎓🌟.

Research Focus

Prof. Dr. Silvia María Díaz-Prado is a distinguished researcher in the field of Regenerative Medicine 🧬🦴, with a strong focus on stem cells, cartilage repair, and molecular signaling in musculoskeletal disorders. Her groundbreaking work explores microRNA profiling🧪, mesenchymal stem cells🧫, and the human amniotic membrane as a novel source for cell therapy. She also investigates oncogenic pathways like Wnt, Notch, and Hedgehog 🔬, linking them to cancer stem cells. Prof. Díaz-Prado’s contributions bridge molecular biology with clinical applications, making her a key figure in orthopedic tissue engineering, biomarkers, and cell-based therapeutic strategies.

Publication Top Notes

Characterization of microRNA expression profiles in normal and osteoarthritic human chondrocytes

Cloning genes from a library using a clustering strategy and PCR

Multilineage differentiation potential of cells isolated from the human amniotic membrane

Human amniotic membrane as an alternative source of stem cells for regenerative medicine

Wnt signalling and cancer stem cells

Notch signalling in cancer stem cells

Potential use of the human amniotic membrane as a scaffold in human articular cartilage repair

Quantification of cells expressing mesenchymal stem cell markers in healthy and osteoarthritic synovial membranes

Effects of severe hypoxia on bone marrow mesenchymal stem cells differentiation potential

Cyclooxygenase-2 (COX-2): a molecular target in prostate cancer

Isolation and characterization of mesenchymal stem cells from human amniotic membrane

Induced pluripotent stem cells for cartilage repair: current status and future perspectives

Biology of BMP signalling and cancer

Oliwia Kordyl | Drug Delivery Systems | Best Research Article Award

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Oliwia Kordyl | Drug Delivery Systems | Best Research Article Award

Ms. Oliwia Kordyl, Poznan Univeristy of Medical Sciences, Poland

Ms. Oliwia Kordyl (b. June 9, 1997) is a dedicated PhD student at Poznan University of Medical Sciences, specializing in 3D printed microneedles for targeted drug delivery. With a background in biotechnology from Adam Mickiewicz University, her work spans molecular biology, pharmaceutical technology, and reproductive genetics. Oliwia has held roles as a lab manager, molecular biologist, and biotechnologist, contributing to innovative projects and scientific conferences. She is skilled in advanced lab techniques and passionate about travel, fitness, and continuous learning.

Publication Profile

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Education

Ms. Oliwia Kordyl is currently pursuing her Ph.D. (Nov 2023–Present) at the Poznan University of Medical Sciences in Poland, focusing on 3D printed microneedles for voriconazole delivery in treating local skin infections. Her research involves optimizing microneedle manufacturing, assessing physicochemical and pharmaceutical properties in vitro, and evaluating drug permeation ex vivo and microbiological effectiveness 🧪🧬. She earned her M.Sc. and B.Sc. in biotechnology from Adam Mickiewicz University (2016–2021), where she explored DNA methylation in oligozoospermia and gene expression in spermatogenesis 🧫. Her academic journey began at K.K. Baczyński Secondary School, specializing in biology, physics, and chemistry 🔬📚.

Experience

Ms. Oliwia Kordyl completed a valuable internship at Novazym Polska in Poznań from July to August 2019. During her time at this renowned biotechnology company, she gained hands-on experience in laboratory techniques and deepened her understanding of industrial biotechnology practices 🔬💼. The internship provided her with practical insights into the daily operations of a biotech firm and allowed her to apply her academic knowledge in a real-world setting 🧪📊. This experience not only enhanced her technical skills but also strengthened her passion for research and innovation in the field of biotechnology, laying a strong foundation for her future scientific endeavors 🚀.

Awards

🏆 Ms. Oliwia Kordyl has actively contributed to the scientific community through speeches and posters at esteemed conferences. She presented on sperm DNA methylation at the 21st Andrology Day (2019) 🧬 and the 21st European Testis Workshop (2021) in Barcelona. Her posters featured at ESHRE 2020, the European Human Genetics Conference (2021), and the 6th Polish Congress of Genetics (2022) showcased her expertise in epigenetics and sperm chromatin structure 🧫📊. In 2023, she co-authored a poster on microneedles for transdermal drug delivery at PolGerSym10 💉. Oliwia also co-authored a publication in the International Journal of Molecular Sciences (2022) 📄📚.

Research Focus

Ms. Oliwia Kordyl’s research focuses on the development of innovative drug delivery systems, particularly microneedle-based technologies for transdermal applications. Her work combines 3D printing, pharmaceutical coatings, and hydrogel systems to enhance the treatment of bacterial and fungal skin infections. She also explores photodynamic therapy and nanotechnology for targeted drug release. Her interdisciplinary approach bridges materials science, biomedical engineering, and pharmaceutics. Additionally, her research extends to epigenetic analysis in human sperm, highlighting her interest in reproductive biology. Her work is at the frontier of personalized medicine, non-invasive therapies, and advanced pharmaceutical technologies.

Publication Top Notes

Optimization of LCD-Based 3D Printing for the Development of Clotrimazole-Coated Microneedle Systems

Microneedle-based arrays – Breakthrough strategy for the treatment of bacterial and fungal skin infections

Microneedle System Coated with Hydrogels Containing Protoporphyrin IX for Potential Application in Pharmaceutical Technology

Global 5mC and 5hmC DNA Levels in Human Sperm Subpopulations with Differentially Protaminated Chromatin in Normo- and Oligoasthenozoospermic Males

nisreen kaddim | Drug Delivery Systems | Best Innovation Award

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nisreen kaddim | Drug Delivery Systems | Best Innovation Award

Dr. nisreen kaddim, Ministry of Higher Education and Scientific Research, University of Babylon, Iraq

Dr. Nisreen Kaddim Radi is an Assistant Professor at the University of Babylon, specializing in molecular biology, genetics, PCR, and virology 🧬. Her research focuses on antimicrobial resistance, food safety, and innovative antibacterial films for medical applications 🏥. She has presented at international conferences and published extensively in high-impact journals 📚. Passionate about advancing science, she integrates computational and experimental approaches to explore anticancer and antibacterial agents ⚗️. With a commitment to research and education, Dr. Nisreen inspires students and contributes to scientific innovation 🌍.

Publication Profile

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Professional Background

Dr. Nisreen Kaddim Radi 🎓 is an Assistant Professor at the College of Science for Women, University of Babylon, specializing in molecular biology, genetics, PCR, and virology 🦠, with a focus on food safety and packaging 🍱. She is a member of the Arab Association for Science and Technology, Iraq branch, and serves on the Educational Guidance Committee at her college. Dr. Nisreen has published numerous research papers and actively participates in global conferences 🌍, including the 2022 International Conference on Sustainable Development Goals in Istanbul, ICAB 2022 at the University of Basrah, and ICAB2 2024, where she presented her studies on antimicrobial resistance, genetic variation, and immunological research

Memberships

Dr. Nisreen Kaddim Radi 🔬 is a dedicated researcher with significant contributions to molecular biology, genetics, and virology 🧬. Although she does not hold editorial positions or industry collaborations, her active engagement in scientific research strengthens her impact in the field. As a member of the Arab Association for Science and Technology 🌍, she remains connected to a network of experts, enhancing her academic and professional credibility. Through her research and participation in international conferences, Dr. Nisreen continues to contribute valuable insights to the scientific community, particularly in food safety and antimicrobial resistance 🦠.

Innovation in Methodology

Dr. Nisreen Kaddim Radi 🔬 combines computational simulations with experimental studies to develop innovative methods for enhancing the effectiveness of antibacterial and anticancer agents 🦠🎗️. Her dual-approach methodology integrates cutting-edge technology with practical applications, demonstrating a high level of scientific innovation 🚀. By bridging computational modeling with real-world experimentation, she contributes to advancing medical and pharmaceutical research, aligning perfectly with the award’s objectives 🏆. Her work not only improves therapeutic outcomes but also paves the way for more efficient and targeted treatments, reinforcing her role as a leading researcher in molecular biology and biotechnology 🧬.

Research Excellence

Dr. Nisreen Kaddim Radi 🔬 is pioneering the development of antibacterial films by integrating nanomaterials, polymers, and plant extracts 🌱🦠. Her innovative approach has profound implications for both medical and industrial applications 🏥🏭, positioning her at the forefront of antibacterial and anticancer material research 🎗️. Her groundbreaking study, Integrative Computational and Experimental Study of Propolis, Polyvinyl Alcohol, and Alhagi maurorum Complex as Anticancer and Antibacterial Agents 📜, showcases a multidisciplinary methodology, blending computational modeling with experimental validation 💻⚗️. This research enhances therapeutic potential, contributing to the advancement of novel biomedical materials and precision-targeted treatments 🚀.

Research Focus

Dr. Nisreen Kaddim Radi’s research primarily focuses on medical microbiology 🦠, immunology 🧬, and infectious diseases 🏥. Her work extensively explores viral infections such as Varicella Zoster Virus (VZV) 🏵️, Human Papillomavirus (HPV) 🎗️, and Hepatitis B Virus (HBV) 🦠, investigating genetic susceptibility and immune response. She also examines bacterial resistance 🧫, particularly in foodborne pathogens like E. coli, and studies immunological markers 🧪 in various infections. Her contributions in genetic polymorphisms 🔬, cytokine responses 🌡️, and molecular typing of pathogens highlight her expertise in understanding disease mechanisms and improving diagnostic approaches in infectious diseases and immunological disorders.

Publication Top Notes

Investigation of oxidative stress in patient with Varicella Zoster Virus (VZV) infection

Human genetic variation susceptibility associated with HBV: analysis of genetic markers susceptibility to hepatitis b among patients in babylon province

Genetic study of TORCH infections in women with bad obstetric history: multiplex polymerase chain reaction for detection of common pathogens and agents of congenital infections

Evaluation of CD4 and CD8 in Patients Infected with Genital Wart Caused by Human Papilloma Virus in Babylon Province/Iraq

Evaluation of serum IgE, TNF alpha at patients with genital warts, Iraq.

Immunological Study for Patient with Verruca Vulgaris and Verruca Plana Caused by HPV in Hilla/Iraq

The effect of manganese poisoning on the histological structure of testis in male Swiss mice

Bacteriological Study of Tonsillitis Patients and Estimation of Concentrations of Certain Immunological Parameters.

The distribution of antimicrobial resistance and the presence of virulence genes in Escherichia coli isolated from frozen chicken meat in Iraq

Nibras Mohammed Sahi | Drug Delivery Systems | Women Researcher Award

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Nibras Mohammed Sahi | Drug Delivery Systems | Women Researcher Award

Assist. Prof. Dr. Nibras Mohammed Sahi, Ministry of Higher Education and Scientific Research, University of Babylon, Iraq

Dr. Nebras Mohammed Sahi 🦋, an Assistant Professor at the University of Babylon, specializes in entomology and plant extracts 🌿. Her research explores insect-derived products and medicinal plant applications in anticancer and antibacterial treatments 🧪. She has contributed to high-impact journals 📄 indexed in SCI and Scopus. Dr. Sahi prepared the propolis and Alhagi maurorum extract used in her latest research. Her work advances medicine, agriculture, and sustainability 🌍. With a citation index of 3, she actively collaborates on innovative biological studies. 💡🔬

Publication Profile

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Professional Background

Dr. Nibras Mohammed Sahi 🦋, an Assistant Professor, specializes in entomology and plant extracts, focusing on the study of insects and their beneficial products. Her research explores the diverse applications of insect-derived compounds in medicine 💊, agriculture 🌱, and sustainability 🌍. Through collaborations with universities and research institutions, she investigates innovative ways to harness the potential of insects for ecological and economic benefits. Driven by a passion for scientific discovery 🔬, Dr. Sahi’s work contributes to advancements in bio-based solutions, aiming to enhance environmental conservation and agricultural productivity while promoting sustainable development.

Ongoing Research

Dr. Nibras Mohammed Sahi 🦋 is actively engaged in research on insect-derived products and plant extracts, with a particular focus on propolis 🐝 and Alhagi maurorum 🌿 for cancer 🧬 and antibacterial 🦠 applications. Her studies explore the therapeutic potential of these natural compounds, aiming to develop innovative solutions in medicine 💊 and biotechnology. While her work aligns with prestigious award categories, highlighting specific project funding 💰, collaborations 🤝, or research grants would further strengthen her academic profile. Through her dedication to scientific discovery 🔬, Dr. Sahi contributes to advancements in natural product research and sustainable healthcare solutions.

Professional Memberships

Dr. Nibras Mohammed Sahi 🦋 has not listed any editorial appointments, active collaborations, or professional memberships. However, participation in scientific societies 🏛️, international conferences 🎤, or editorial boards 📑 would significantly enhance her academic profile. Engaging in peer-reviewed journals 📚, contributing to scientific committees 🏅, or collaborating on global research initiatives 🌍 would further establish her influence in the field of entomology and natural product research. Highlighting such professional engagements would strengthen her candidacy, showcasing her dedication to advancing scientific knowledge 🔬 and fostering collaborations that drive innovation in medicine 💊, agriculture 🌱, and sustainability 🌿.

Research Focus

Assist. Prof. Dr. Nibras Mohammed Sahi’s research primarily focuses on microbiology 🦠, antibiotic resistance 💊, and bioactive compounds 🌱. His studies encompass pathogenic bacteria identification 🧫, antimicrobial activity testing 🧪, and molecular genetics 🧬 related to infectious diseases. He has extensively investigated natural plant extracts 🌿 and fungal metabolites 🍄 for their antibacterial and antifungal properties, along with genetic factors in diseases 🧑‍⚕️ like hepatitis B and colorectal cancer. His work also extends to insecticidal bioactive compounds 🪲 and their effects. His research contributes significantly to public health 🏥, pharmacology 💉, and molecular diagnostics 🔬.

Publication Top Notes

Molecular & Antibiotic Sensitivity Pattern Study of Acute Otitis Media, Tonsillitis & Periodontitis among Different Ages of Patients of Al-Hashmia General Hospital, Primary Care Centers & Private Clinic in Babylon Province

Analysis of Methanolic extract of Secondary Metabolites Released by Candida glabratus using GC-MS and Evaluation of Its Antimicrobial Activity

Detection of Bioactive Compounds of Raphanus sativus Using GC-MS and FT-IR Technical Analysis and Determination of its Anti-Bacterial and Anti-Fungal Activity.

Isolation and Identification of Some Pathogenic Bacteria from Otitis Media in Babylon Governorate

Antimicrobial Effect of the Crude Phenolic, Alkaloid and Terpenoid Compounds Extracts of Myrtus Communis L. against Human Gram-Negative Pathogenic Bacteria

Antimicrobial Effect of the Crude Phenolic, Alkaloid and Terpenoid Compounds Extracts of Myrtus Communis L. against Human Gram-Negative Pathogenic Bacteria

Liangliang Dai | Drug Delivery Systems | Best Researcher Award

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Liangliang Dai | Drug Delivery Systems | Best Researcher Award

Prof  Liangliang Dai, Northwestern Polytechnical University, China

Prof. Liangliang Dai Associate Professor & Assistant Dean, Institute of Medical Research, Northwestern Polytechnical University. With a PhD and MD in Biomedical Engineering and Biology from Chongqing University under Prof. Kaiyong Cai, Prof. Dai’s research focuses on nanomaterials, drug delivery systems, nanosystems, tumor immunotherapy, and antimetabolic therapy. He has led multiple national and provincial research projects and published in top journals like Nature Communications and Advanced Functional Materials. His innovative work bridges nanotechnology and cancer therapy, advancing biomedical science. 🔬🌿

Publication Profile

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Education Background

Prof. Liangliang Dai holds a Ph.D. in Biomedical Engineering 🎓 from the Ministry of Education College of Bioengineering at Chongqing University, where he conducted advanced research under the mentorship of Prof. Kaiyong Cai. His academic journey also includes an MD in Biology 🧬 from the same institution, further solidifying his expertise in bioengineering and biomedical sciences. Guided by Prof. Cai, his studies focused on cutting-edge innovations in the field. With a strong foundation in interdisciplinary research, Prof. Dai continues to contribute to scientific advancements in biomedical engineering and biology, shaping the future of healthcare and biotechnology 🔬.

Hosted Research Project

Prof. Liangliang Dai has led several prestigious research projects 🔬, contributing significantly to biomedical engineering. He has been awarded funding from the National Natural Science Foundation of China 🏅 for multiple projects (52373157, 52003223) and has received the National Science Foundation for Distinguished Young Scholars of Shaanxi Province (S2025-JC-JQ-0228). Additionally, he has played a key role in the Key R&D Programs of Shaanxi Province (2024SF2-GJHX-26, 2022SF-012) and secured support from the Natural Science Foundation of Shaanxi Province (2019JQ-347) and the Young Talent Fund of University Association for Science and Technology (20200302) 🌍.

Research Contributions

Prof. Liangliang Dai has secured multiple prestigious research grants 🏅, including funding from the National Natural Science Foundation of China and the Key R&D Program of Shaanxi Province. His research focuses on advanced drug delivery systems 💊, tumor immunotherapy 🧬, and biomedical nanotechnology 🔬, making significant contributions to the medical research community. These competitive grants reflect his expertise and the high regard for his work in the scientific field. Through pioneering innovations, Prof. Dai continues to push the boundaries of biomedical engineering, striving for breakthroughs that enhance healthcare and therapeutic solutions globally 🌍.

Global Recognition 

Prof. Liangliang Dai is a globally recognized researcher 🌍, collaborating with renowned scientists to develop innovative therapeutic strategies 🔬. His groundbreaking work in cancer therapy 🧬 and nanomaterial-based drug delivery 💊 is paving the way for more effective medical treatments. Beyond securing prestigious grants and publishing impactful research, his contributions hold practical significance in biomedical applications, transforming healthcare solutions. With a commitment to advancing science, Prof. Dai’s influence continues to grow, driving innovation and shaping the future of medicine through cutting-edge technologies and interdisciplinary collaborations 🤝.

Innovative Research

Prof. Liangliang Dai’s research is highly interdisciplinary 🔬, blending nanotechnology, immunotherapy, and bioengineering to advance medical science. His groundbreaking work on multifunctional metal-organic frameworks 🏗️, light-activatable antibiosis for infected bone repair 🦴, and tumor microenvironment modulation 🧬 showcases his pioneering role in translational medicine. By enhancing cancer treatment strategies 🎗️ and optimizing drug delivery systems 💊, his studies have a direct impact on healthcare. Through cutting-edge innovations, Prof. Dai is shaping the future of biomedical science, driving transformative solutions that improve patient outcomes and therapeutic effectiveness worldwide 🌍.

Research Focus

Liangliang Dai’s research primarily focuses on nanotechnology and biomedical engineering 🧪🔬, with a particular emphasis on nanosystems for drug delivery, tumor therapy, and environmental applications. His work explores nanoparticles, metal-organic frameworks (MOFs), and photo-responsive materials to develop advanced cancer treatments 🎗️, chemodynamic therapy ⚛️, immune modulation 🛡️, and antimicrobial strategies 🦠. Dai also investigates water purification 💧 and biofilm control to tackle antibiotic resistance. His research bridges materials science 🏗️ and biomedicine to create multifunctional therapeutic nanosystems, advancing precision medicine 🧬 and environmental health 🌍.

Publication Top Notes

Nanosilver-Induced Pseudo Cuproptosis of Potentially Pathogenic Bacteria during the Storage of Ozone-Treated Wastewater

MMP-2/GSH-responsive nanobomb for tumor chemo-immunotherapy with hierarchical delivery and TAMs re-education by regulating hbegf-activated ERK/MAPK signal pathway

An Adjuvant Micelle-Based Multifunctional Nanosystem for Tumor Immunotherapy by Remodeling Three Types of Immunosuppressive Cells.

Multifunctional Fe-based coordination polymer nano-bomb modified with β-lapachone and CaO<sub>2</sub> for targeted tumor dual chemodynamic therapy with enhanced ferroptosis and H<sub>2</sub>O<sub>2</sub> self-supply.

A Photo‐Therapeutic Nanocomposite with Bio‐Responsive Oxygen Self‐Supplying Combats Biofilm Infections and Inflammation from Drug‐Resistant Bacteria

Detachable MOF-Based Core/Shell Nanoreactor for Cancer Dual-Starvation Therapy With Reversing Glucose and Glutamine Metabolisms.

Engineered drug delivery nanosystems for tumor microenvironment normalization therapy

Cascade amplification of tumor chemodynamic therapy and starvation with re-educated TAMs via Fe-MOF based functional nanosystem

Chuan Fan | Nanomedicine | Best Researcher Award

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Chuan Fan | Nanomedicine | Best Researcher Award

Dr Chuan Fan,Linyi University,China

Dr. Chuan Fan 🎓🔬 is a lecturer at Linyi University’s School of Chemistry and Chemical Engineering, specializing in multifunctional hydrogel dressing systems and acoustic-driven biomarker analysis. He earned his degree from the University of Science and Technology Beijing under Prof. Xueji Zhang. With 30+ SCI- and Scopus-indexed publications and a ResearchGate citation index of 984, his research contributes to pharmacology and drug delivery. However, he is in the early stages of securing patents, grants, and industry collaborations. His work holds promise for advanced therapeutic applications, making him a strong contender for early-career research awards. 🏆📚

Publication Profile

Scopus

Academic and Professional Background

Dr. Chuan Fan 🎓 pursued his studies at the University of Science and Technology Beijing under the esteemed mentorship of Professor Xueji Zhang. Since August 2023, he has been serving as a lecturer at Linyi University’s School of Chemistry and Chemical Engineering 🏫. His research primarily focuses on multifunctional hydrogel dressing systems and acoustic-driven enrichment analysis of trace biomarkers 🧪. Through his dedication and innovation, Dr. Fan has made significant progress in his field, contributing to multiple high-quality publications in indexed journals 📚. His work continues to advance scientific knowledge and practical applications in chemical and biomedical research. 🚀

Research and Innovations

Dr. Chuan Fan has made notable contributions to his field, authoring over 30 SCI- and Scopus-indexed articles 📄, reflecting his dedication to research. His citation index on ResearchGate stands at 984 🔍, indicating a moderate academic impact. However, his research engagement appears to be in its early stages, with no completed projects and only two ongoing ones 🧪. Despite his publication record, he has yet to secure patents, editorial appointments, industry collaborations, consultancy projects, or book publications 📚. While his work is promising, further achievements in these areas could enhance his influence in the scientific community. 🌟

Contributions and Impact

Dr. Chuan Fan is dedicated to advancing pharmacology and drug delivery systems, with a focus on enhancing targeted therapies and improving patient outcomes 💊🔬. His research explores innovative methods to optimize drug efficacy and minimize side effects, contributing to the evolving landscape of precision medicine. While he asserts that his work has gained significant recognition, concrete evidence such as prestigious awards, keynote invitations, or high-impact citations remains unspecified 🏆📖. Despite this, his contributions reflect a commitment to revolutionizing drug delivery, potentially shaping future advancements in personalized treatment strategies for various medical conditions 🚀🧬.

Professional Engagements

Dr. Chuan Fan currently does not hold any professional memberships, editorial roles, or collaborative positions, which are key indicators of a researcher’s influence in the academic community 📚. Actively participating in international conferences 🌍, joining professional societies 🏛️, and engaging in research networks 🔬 would significantly enhance his professional standing. Such involvement fosters knowledge exchange, strengthens collaborations, and increases visibility within the scientific community. By contributing to peer-reviewed journals ✍️, networking with experts 🤝, and taking on leadership roles, Dr. Fan can expand his impact and establish himself as a recognized authority in his field of expertise.

Research Focus

Dr. Chuan Fan’s research focuses on biomedical materials 🧪, nanotechnology 🧫, and wound healing 🩹, particularly in developing visible light-activated Ti-MOF (titanium-metal-organic frameworks) hydrogel composites for chronic diabetic wound healing 🦶. His work integrates photocatalysis 🌞, drug delivery 💊, and biocompatible hydrogels to enhance tissue regeneration and antimicrobial effects. By loading metformin into these advanced biomaterials, Dr. Fan aims to promote faster and more effective healing of diabetic wounds, addressing a critical medical challenge. His research sits at the intersection of materials science 🏗️, biomedical engineering ⚙️, and regenerative medicine 🧬.

Publication Top Notes

Visible light-activated Ti-MOF loaded metformin-hydrogel composite dressing for accelerated chronic diabetic wound healing

Liqun Jiang | Drug Delivery Systems | Best Researcher Award

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Assist. Prof. Dr. Liqun Jiang | Drug Delivery Systems | Best Researcher Award

Xuzhou Medical University, China

Author Profile

🎓Early Academic Pursuits 

Liqun Jiang began his academic journey with a deep interest in pharmaceutical sciences and biotechnology. His foundational studies were driven by a passion for discovering innovative solutions to pressing medical challenges. During his early years, Jiang demonstrated exceptional aptitude in the fields of drug development and delivery systems, excelling in both theoretical and applied sciences. These formative experiences laid the groundwork for his future endeavors in advanced pharmaceutical research. Jiang’s dedication to academic excellence led him to pursue specialized training and advanced education, equipping him with the knowledge and skills essential for groundbreaking contributions to medical science.

🌟Professional Endeavors 

Currently serving as an Associate Professor at Xuzhou Medical University, Liqun Jiang has established himself as a key figure in pharmaceutical engineering. His role extends beyond teaching, as he actively participates in high-impact research initiatives. A youth member of the Pharmaceutical Engineering Committee of the Chinese Pharmaceutical Society, Jiang is deeply involved in projects focused on novel drug delivery systems, particularly for respiratory diseases.

He has been instrumental in nearly 10 prestigious research projects, including the national 863 Program and major drug innovation programs. Jiang has successfully overseen the development of approximately 10 products, ranging from pharmaceuticals and disinfection solutions to specialized medical foods. His collaborative efforts with pharmaceutical companies have led to the development of a drug liposome inhalation agent, which has now progressed to pilot production stages.

🔬Contributions and Research Focus 

Jiang Liqun’s research is primarily centered on novel drug delivery systems for respiratory diseases, with a particular emphasis on pulmonary edema. His contributions to the field are both diverse and impactful, including: Developing pressure-sensitive multivesicular liposomes for delivering amlodipine besylate, Innovating therapies with exogenous eNOS genes to combat high-altitude pulmonary edema, Utilizing mesenchymal stem cell exosomes for advanced inhalation therapies, Designing high-efficiency powder mist inhalants for high-altitude conditions.

🏆Accolades and Recognition 

Liqun Jiang’s academic and professional achievements have garnered widespread recognition. His research contributions are evidenced by: Nearly 30 peer-reviewed publications in reputed journals, 10 authorized patents, with 8 more under processing, An impressive citation index of 312, reflecting the high impact of his work, Close collaborations with pharmaceutical companies, leading to tangible advancements in drug development and commercialization, Jiang’s dedication to his field is further highlighted by his active participation in the Chinese Pharmaceutical Society, where he contributes as a youth member in shaping the future of pharmaceutical engineering.

🌏Impact and Influence 

Jiang Liqun’s work has had a profound impact on both academia and industry. His innovative strategies for addressing respiratory diseases have paved the way for safer, more effective therapeutic interventions. By integrating cutting-edge drug delivery systems into clinical practice, Jiang has set a benchmark in the treatment of pulmonary conditions. His ability to bridge the gap between research and application has made him a valuable collaborator for pharmaceutical companies seeking to bring advanced therapies to market.

🌟Legacy and Future Contributions 

Jiang Liqun’s legacy lies in his relentless pursuit of innovation and excellence in pharmaceutical research. His groundbreaking work in drug delivery systems has already influenced the development of treatments for high-altitude pulmonary edema and other respiratory conditions. Looking ahead, Jiang aims to expand his research into broader areas of pulmonary medicine, focusing on the use of biotechnology and nanotechnology in drug development. He envisions a future where precision medicine and targeted therapies play a pivotal role in treating respiratory diseases, improving outcomes for patients worldwide. Jiang is committed to mentoring the next generation of researchers and fostering collaborations that advance the frontiers of pharmaceutical science.

🌟Final Thoughts 

With a career marked by innovation, dedication, and impactful contributions, Liqun Jiang exemplifies the qualities of a trailblazing researcher. His work continues to shape the future of respiratory medicine, leaving an indelible mark on both academia and industry. Through his ongoing efforts, Jiang inspires a new wave of scientific inquiry and collaboration, ensuring his legacy will resonate for years to come.

📖Notable Publications

Pressure-sensitive multivesicular liposomes as a smart drug-delivery system for high-altitude pulmonary edema
  • Authors : Li, H., Liu, S., Dai, W., Jin, F., Jiang, L.
  • Journal: Controlled Release
  • Year: 2024
Inhalation of panaxadiol alleviates lung inflammation via inhibiting TNFA/TNFAR and IL7/IL7R signaling between macrophages and epithelial cells
  • Authors : Wang, Y., Wei, H., Song, Z., Shu, Q., Xie, Y.
  • Journal: Ginseng Research
  • Year: 2024
Dry Powder Formulations for Inhalation Require a Smaller Aerodynamic Diameter for Usage at High Altitude
A large particle size is required by a nano/micron sized-fluticasone propionate inhalable suspension for asthma treatment
A simple liposome-based bionic bacterium for tumor treatment by re-education of tumor-associated microphages in combination with chemotherapy

Assoc Prof Dr. Chaoqun You|Drug Delivery Systems|Best Researcher Award

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Assoc Prof Dr. Chaoqun You|Drug Delivery Systems|Best Researcher Award

Assoc Prof Dr. Chaoqun You at Nanjing Forestry University,China

PROFILE  

Orcid

Early Academic Pursuits 🎓

Dr. Chaoqun You embarked on an impressive academic journey rooted in chemical engineering and forestry. He completed his doctoral studies in Chemical Engineering and Technology at the prestigious Southeast University (2015–2018), where his focus was on sustainable innovations in chemical processes. His passion for research deepened during his postdoctoral tenure (2018–2020) at the Postdoctoral Mobile Station of Forestry Engineering, Nanjing Forestry University, under the mentorship of Prof. Fei Wang. This period marked the foundation of his specialization in cellulose-based systems, green nanopesticides, and natural product extractions.

Throughout his academic development, Dr. You honed his expertise in advanced material applications and sustainable chemistry, bridging the gap between traditional forestry engineering and modern nanotechnology.

Professional Endeavors and Contributions 🌱

Since joining the College of Chemical Engineering at Nanjing Forestry University in 2018, Dr. You has progressively risen through the ranks. From being a lecturer and research assistant to his current role as an Associate Professor, he has showcased exceptional dedication to both teaching and research. His professional endeavors center on integrating environmental sustainability with innovative technology, particularly in:

  • Green Nanopesticides and Pest Control: Designing biodegradable, efficient delivery systems for agricultural applications.
  • Cellulose-based Drug Delivery Systems and Nanomedicine: Exploring applications of renewable materials for controlled delivery of therapeutic agents.
  • Natural Products Extraction and Separation: Developing methods to efficiently isolate bioactive compounds for industrial use.

Dr. You’s research is distinguished by its interdisciplinary approach, combining forestry, chemistry, and nanotechnology to address global challenges in agriculture, health, and environmental sustainability.

Research Focus and Key Projects 🔬

Dr. You’s research emphasizes creating eco-friendly, high-performance materials with real-world applications. He has been a key figure in several significant projects:

  1. National Key Research and Development Program of China (2022–2025): Dr. You contributed to this high-budget initiative (4.5 million RMB), which explores sustainable agricultural solutions through advanced nanotechnology.
  2. National Natural Science Foundation of China (2020–2022): As a principal investigator, he secured funding of 250,000 RMB to investigate innovative pesticide delivery systems.
  3. Natural Science Foundation of Jiangsu Province (2019–2022): Hosting this grant of 200,000 RMB, he delved into designing lignin-coated nanoparticles for pesticide delivery.
  4. China Postdoctoral Science Foundation (2019–2020): His project, funded with 80,000 RMB, focused on smart nanocarrier systems to enhance agricultural efficiency.

Through these projects, Dr. You has made notable contributions to developing stimulus-responsive hydrogels, nanogels, and polysaccharide-based nanopesticides with applications in pest control and drug delivery.

Accolades and Recognition 🏅

Dr. Chaoqun You’s innovative work has earned him widespread recognition in academia and industry:

  • Publications in High-Impact Journals: With over ten articles published in leading journals like Environmental Science Nano, Green Chemistry, and Journal of Cleaner Production, Dr. You’s research is internationally acclaimed. Notable works include advancements in UV-responsive hydrogels and temperature/pH-dependent nanogels for pesticide delivery.
  • Leadership in Collaborative Research: He has worked closely with renowned scientists like Prof. Fei Wang and Orlando J. Rojas, contributing to breakthroughs in cellulose nanocrystals and lignin-coated nanopesticides.
  • Prestigious Grants and Awards: Securing multiple competitive grants demonstrates his ability to lead high-impact projects.

Impact and Influence 🌍

Dr. You’s work has significantly influenced the fields of forestry engineering, green chemistry, and nanotechnology. His research on lignin-coated nanoparticles and smart delivery systems has set a benchmark for eco-friendly agricultural practices, addressing issues such as pesticide waste, environmental contamination, and crop health.

By leveraging cellulose nanocrystals for crop protection, his work offers scalable solutions for global challenges in sustainable agriculture. His focus on renewable materials also contributes to the broader effort of reducing reliance on non-biodegradable and toxic substances.

Legacy and Future Contributions 🚀

Looking ahead, Dr. You aims to expand the scope of his research, pushing boundaries in nanomedicine and sustainable nanotechnology. His work could pioneer the next generation of biodegradable materials, impacting not only agriculture but also healthcare and environmental conservation.

Key aspects of his legacy include:

  • Mentorship: Dr. You’s role as a professor enables him to shape the next generation of scientists, inspiring them to pursue sustainable innovations.
  • Collaborative Networks: Through international collaborations, he contributes to the global exchange of knowledge in forestry and chemical engineering.
  • Practical Applications: His work is poised to revolutionize how industries utilize renewable resources, paving the way for sustainable technologies in various sectors.

🎓Publication 

Preparation of UV-responsive hydrogels based on nanocellulose and their utilization in fungicide delivery

  •  Authors   :Chaoqun You; Xinyue Ji; Hanchen Lin; Ning Ma; Wei Wei; Lingfeng Long; Like Ning; Fei Wang
  • Journal    : Nano
  • Year         :2024

Application of bio-based nanopesticides for pine surface retention and penetration, enabling effective control of pine wood nematodes

      • Authors   : Hanchen Lin; Like Ning; Tingting Dai; Wei Wei; Ning Ma; Mei Hong; Fei Wang; Chaoqun You
      • Journal    : Chemical Engineering Journal
      • Year         :2024

The chitosan/cellulose nanocrystal cross-linked carriers effectively encapsulate ursolic acid to enhance the delivery of bioactive natural products

  • Authors   :  Jingyang Ren; Hanchen Lin; Yu Zhang; Xun Li; Zhen Zhang; Chaoqun You; Fei Wang
  • Journal    :Drug Delivery Science and Technology
  • Year         :2024

Advances in the Design of Functional Cellulose Based Nanopesticide Delivery Systems

  • Authors   :Hamed Abdollahpour
  • Journal     : Drug Delivery Science and Technology
  • Year         :2024

Cellulose nanocrystals for crop protection: leaf adhesion and controlled delivery of bioactive molecules

  • Authors   :  Like Ning; Chaoqun You; Yuxin Jia; Jingqian Chen; Yu Zhang; Xun Li; Orlando J. Rojas; Fei Wang
  • Journal    :Green Chemistry
  • Year         :2023