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

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

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

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

Publication Profile: 

Google Scholar

Education:

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

Experience:

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

Awards and Honors:

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

Research Focus:

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

Publications Top Notes:

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

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

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

Conclusion:

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

Wen Li | Tissue Engineering Regeneration | Best Researcher Award

Mr. Wen Li | Tissue Engineering Regeneration | Best Researcher Award

Mr. Wen Li , State key laboratory of supramolecular structure and materials, college of chemistry, Jilin University , China

Professor Wen Li is a leading scientist at the College of Chemistry, Jilin University, recognized for his contributions to peptide- and protein-based bioactive materials. Earning his Ph.D. from Jilin University in 2006, he rapidly advanced through academic ranks—from lecturer to full professor by 2013. His academic journey also includes postdoctoral research at Seoul National University, South Korea. Professor Li’s interdisciplinary research integrates chemistry, materials science, and biomedical applications, positioning him as a pioneering figure in supramolecular chemistry and bioinspired adhesives. With numerous high-impact publications and innovations in antimicrobial peptides, tissue sealants, and soft electronics, he has significantly contributed to both scientific knowledge and real-world biomedical applications. His commitment to translating fundamental research into functional materials continues to drive breakthroughs in sustainable, degradable, and biocompatible materials.

Publication Profile:

Orcid

Strengths for the Award:

  1. Outstanding Academic Progression

    • From Ph.D. completion in 2006 to full professorship by 2013, Professor Wen Li has shown rapid and consistent academic advancement.

    • He has international research exposure through his postdoctoral work at Seoul National University.

  2. High-Impact Research Contributions

    • Published extensively in top-tier journals such as Angewandte Chemie, Biomaterials, Advanced Healthcare Materials, Langmuir, and Journal of Materials Chemistry.

    • His research is highly interdisciplinary, linking peptide self-assembly, biomaterials, antimicrobial systems, and energy devices.

  3. Real-World Impact & Innovation

    • Developed cutting-edge bioadhesives, nano-antimicrobial systems, and biodegradable materials with significant medical and environmental relevance.

    • Strong emphasis on sustainability, biocompatibility, and smart responsive materials like redox or photo-controlled systems.

  4. Leadership and Collaboration

    • Leads a productive research group, mentoring young scientists and collaborating across multiple institutions.

    • His publications include a large network of co-authors, showing evidence of team science and academic collaboration.

  5. Diverse Research Outputs

    • Contributions span various formats: fundamental studies, applied innovations, material designs, and medical applications.

    • From self-healing hydrogels to stretchable supercapacitors, his portfolio is both deep and diverse.

⚠️ Areas for Improvement:

  1. Commercial and Clinical Translation

    • While the foundational work is strong, more efforts toward industrial partnerships and clinical trials would increase real-world adoption.

    • Filing patents or working with biotech/medical device companies could help scale his research outcomes.

  2. Global Visibility

    • Greater involvement in international conferences, editorial boards, or global initiatives can further enhance his global academic footprint.

    • Collaborative projects with top labs outside Asia could diversify perspectives and increase influence.

📘 Education:

Wen Li received his Ph.D. in Chemistry from Jilin University in 2006, a prestigious institution known for its advanced research in materials and chemical sciences. His doctoral studies focused on supramolecular structures, laying the foundation for his career in peptide and polymer-based materials. The rigorous academic environment at Jilin University equipped him with deep insights into molecular interactions, material fabrication, and biomedical chemistry. After completing his Ph.D., he expanded his academic perspective by pursuing postdoctoral research at Seoul National University (2010–2011), one of South Korea’s top-tier research universities. There, he collaborated on interdisciplinary projects that fused chemistry with nanotechnology and biomaterials. This international experience enriched his scientific worldview and further refined his expertise in designing functional peptide-based assemblies. His academic training bridges the gap between molecular chemistry and real-world applications, particularly in the biomedical and environmental sectors.

👨‍🔬 Experience:

Professor Wen Li began his academic career as a lecturer at the State Key Laboratory of Supramolecular Structures and Materials, Jilin University, immediately after receiving his Ph.D. in 2006. By 2008, he was promoted to Associate Professor due to his early contributions to peptide-based material science. Between 2010 and 2011, he broadened his research capabilities as a postdoctoral fellow at Seoul National University, where he engaged in collaborative research on supramolecular assemblies and nano-biotechnology. Returning to Jilin University, he became a full professor in September 2013, leading a dynamic research group dedicated to cutting-edge biomaterials and soft electronics. With over 15 years of academic and research experience, Professor Li has mentored numerous graduate students, secured significant research grants, and maintained a strong publication record. His career trajectory reflects continuous advancement in leadership, interdisciplinary collaboration, and innovation in bioinspired materials.

🔬 Research Focus:

Professor Wen Li’s research centers on the design and fabrication of peptide- and protein-based bioactive materials with applications in healthcare and sustainability. His work explores self-assembling nano-antimicrobial peptides, biomimetic underwater adhesives, tissue sealants, and flexible hydrogel electronics, integrating supramolecular chemistry with biomedical engineering. A notable strength of his research lies in creating multifunctional materials that are not only biocompatible and degradable but also smart and responsive, such as photo-switchable or redox-reactive assemblies. His group develops materials that perform complex biological tasks—like sealing tissues, healing wounds, or delivering antimicrobial activity—while maintaining eco-friendly characteristics. Recent efforts also include bio-plastics and adhesive tapes for surgical and environmental use. Professor Li’s innovations address pressing challenges in medical technology and sustainability, aiming for materials that are both high-performing and environmentally conscious. His work bridges disciplines and has wide-ranging impact across chemistry, medicine, and green materials science.

📚 Publications Top Notes:

  1. 🧬 Polyoxometalate-Driven Self-Assembly of Short Peptides into Multivalent Nanofibers with Enhanced Antibacterial ActivityAngew. Chem. Int. Ed. (2016)

  2. 🔦 Host–Guest Interaction Driven Peptide Assembly into Photoresponsive 2D Nanosheets with Switchable Antibacterial ActivityCCS Chem. (2021)

  3. 🧪 Nano-Antimicrobial Peptides Based on Constitutional Isomerism-Dictated Self-AssemblyBiomacromolecules (2022)

  4. 🧲 Exploiting Redox-Complementary Peptide/Polyoxometalate Coacervates for Spontaneously Curing into Antimicrobial AdhesivesBiomacromolecules (2022)

  5. 💧 Wet and Functional Adhesives from One-Step Self-Assembly of Amino Acids and PolyoxometalatesAngew. Chem. Int. Ed. (2017)

  6. 🩹 Peptide/Glycyrrhizic Acid Supramolecular Polymer: A Medical Adhesive for Dural SealingBiomaterials (2023)

  7. 🌿 Plant Protein-Peptide Supramolecular Polymers for Surgical SealingAdv. Healthcare Mater. (2023)

  8. ⚙️ Protein-Based Supramolecular Adhesive with On-Demand Adhesion for Preventing Tissue AdhesionChem. Eng. J. (2025)

  9. 🔋 Embedding Hydrogel Electrodes for Stretchable High-Performance SupercapacitorsChem. Eng. J. (2024)

  10. 🧼 Advances in Peptide/Polymer Antimicrobial AssembliesJ. Mater. Chem. B (2025)

🧾 Conclusion:

Professor Wen Li is a highly deserving candidate for the Best Researcher Award. His research addresses critical scientific and societal challenges, such as antimicrobial resistance, surgical innovation, and eco-friendly material development. He combines rigorous chemistry with creative engineering, producing solutions that are both scientifically novel and practically viable.