Peiman Valipour | Advanced Fiber Technologies and Nanocomposites | Excellence in FRP Nanocomposite Research Award

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Prof. Dr. Peiman Valipour | Advanced Fiber Technologies and Nanocomposites | Excellence in FRP Nanocomposite Research Award

Professor and Full-Time Faculty Member at Islamic Azad University, Iran

Dr. Peiman Valipour is an esteemed Associate Professor in the Department of Textile Engineering, Apparel, and Fashion at Qaem Shahr Branch, Islamic Azad University, Iran. With over two decades of academic and research experience, he has made significant contributions to textile engineering, nanotechnology, and fluid mechanics. His extensive background in textile chemistry and fiber science has positioned him as a leading expert in the field.

Profile

Scholar

Education

Dr. Valipour obtained his B.Sc. in Textile Engineering with a focus on Textile Chemistry and Fiber Science from Yazd Branch, Islamic Azad University, in 1996. He pursued his M.Sc. in the same discipline at South Tehran Branch, Islamic Azad University, completing it in 1998. He later earned his Ph.D. in Textile Engineering from Tehran Science and Research Branch, Islamic Azad University, in 2005. In addition, he completed an M.Sc. in Public Management with a specialization in Human Resources from Chalus Branch, Islamic Azad University, in 2017.

Experience

Dr. Valipour has been a faculty member at Qaem Shahr Branch, Islamic Azad University, since 1998. Over the years, he has held several administrative roles, including President of Qaem Shahr Branch, President of Juybar Branch, and Deputy of Academic Affairs. His extensive teaching portfolio includes courses in Fiber Sciences, Synthetic Fiber Production Technology, Dye Chemistry, Polymer Rheology, and Textile Surface Modification. Additionally, he has been instrumental in designing and establishing textile laboratories and workshops, significantly advancing academic infrastructure.

Research Interests

Dr. Valipour’s research primarily focuses on textile engineering, nanotechnology, fluid mechanics, clothing, and branding. His work has led to groundbreaking developments in the application of nanotechnology in textiles, sustainable textile production, and advanced fabric finishing techniques. His interdisciplinary approach has contributed to innovations in textile durability, color stability, and functionalized fabrics.

Awards and Recognitions

Dr. Valipour has received multiple accolades for his contributions to academia and research. Notably, he was recognized as an Outstanding Professor in 2002, 2009, and 2010, and an Outstanding Researcher in 2003, 2004, 2016, 2021, and 2023 by Islamic Azad University. His research excellence has earned him prestigious grants and invitations to keynote conferences worldwide.

Selected Publications

Impacts of the Aneurysm Deformation Induced by Stent on Hemodynamic of Blood Flow in Saccular Internal Carotid Artery Aneurysms – AIP Advances, 2024.

Influence of Cross Baffle on Heat Transfer of Nanofluid Flow Inside Circular Pipe in Existence of Electromagnetic Field – Case Studies in Thermal Engineering, 2024.

Impacts of Molecular Characteristics on Induced Knudsen Force in the Micro Gas Sensor – International Journal of Modern Physics C, 2024.

Photocatalytic Nanocomposite Prepared by Synthesis and Coating of Zinc Stannate and Graphene on Cotton Textile – Synthetic Metals, 2023.

Effects of Coiling Embolism on Blood Hemodynamic of the MCA Aneurysm – Scientific Reports, 2022.

CFD Investigations of the Blood Hemodynamic Inside Internal Cerebral Aneurysm – Alexandria Engineering Journal, 2023.

Investigation of Electrospun Nanofibers with an Electrified Non-Newtonian Jet Using Differential Quadrature Method – International Journal of Hydrogen Energy, 2018.

Conclusion

Dr. Peiman Valipour’s extensive research in FRP nanocomposites, polymer chemistry, and textile engineering makes him a highly deserving candidate for the Research for Excellence in FRP Nanocomposite Research Award. His pioneering studies, innovative patents, and impactful publications solidify his standing as a trailblazer in fiber-reinforced composite materials. Recognizing his contributions with this award would not only celebrate his achievements but also inspire further advancements in the field. 🏅

 

Rui Wen | Natural Fibers | Best Researcher Award

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Assist Prof Dr. Rui Wen | Natural Fibers | Best Researcher Award

Wenzhou Medical University, China

Profiles:

Current Position 🌟

Rui Wen is currently an Assistant Professor at Wenzhou Medical University, where he is actively engaged in cutting-edge research on biomaterials. He focuses primarily on studying the functional properties of silk proteins and the synthesis of artificial spider silk fibers with advanced mechanical attributes. His work bridges the fields of biomaterials and bioengineering, positioning him as a promising figure in materials science and biotechnology.

Publication Achievements 📚

With a strong foundation in biomaterials research, Rui Wen has contributed significantly to the field through numerous high-impact publications. As the first author or corresponding author, he has published 11 peer-reviewed papers in prestigious journals, including the International Journal of Biological Macromolecules, Acta Biomaterialia, and ACS Biomaterials Science & Engineering. His publications address the functional aspects of spider silk proteins and the synthesis of artificial silk fibers, advancing both the scientific understanding and application potential of silk-based materials.

Ongoing Research and Innovations 🔬

Rui Wen’s research currently focuses on two main aspects of spider silk. First, he conducts in-depth analyses of spider silk protein compositions, aiming to uncover the natural mechanisms that give spider silk its remarkable mechanical properties. This understanding forms the basis for synthetic replication in lab settings. Second, he explores artificial spider silk production, concentrating on enhancing the extensibility and strength of the fibers. His recent work demonstrated that by adjusting the molecular weight of spider silk proteins, it is possible to create synthetic fibers with properties exceeding those of natural spider silk. This advancement lays the groundwork for future applications in high-performance materials.

Research Interests 🧬

Rui Wen’s research interests span the biomimetic study of spider silk proteins, the molecular synthesis of silk-based materials, and bioengineering applications for high-strength fibers. His work explores both the natural composition of spider silk proteins and their synthetic adaptation to improve properties like tensile strength, elasticity, and durability. This interdisciplinary focus positions his research at the intersection of biotechnology, materials science, and engineering.

Academic Background 🎓

Rui Wen received his Ph.D. in Biomaterials from Donghua University in 2020. His academic journey has been shaped by an interest in biomimicry and the pursuit of sustainable, high-performance materials. His foundational studies laid the groundwork for his subsequent research on artificial spider silk, a field where he continues to push boundaries.

Collaborations and Professional Network 🤝

Collaboration is central to Rui Wen’s research. In partnership with Professor Xiangqin Liu at Dalhousie University, he made a breakthrough in spider silk research, co-authoring a paper that introduced the first full-length coding gene for wrapped silk protein in China. This finding, published in International Journal of Biological Macromolecules in 2018, represents a critical contribution to the genetic understanding of spider silk and has furthered his professional reputation. He also maintains professional connections with colleagues Xue Li, Kangkang Wang, Suyang Wang, and Qing Meng, contributing to a network that fosters innovation in biomaterials.

Editorial Appointments and Review Responsibilities 📝

Rui Wen’s editorial and review roles reflect his expertise in biomaterials. He serves on the editorial board of the World Journal of Biological Chemistry and the Young Editorial Board for Biomedical Engineering Communications. Additionally, he acts as an invited reviewer for the International Journal of Biological Macromolecules. These positions allow him to shape the discourse in biomaterials and bioengineering while staying updated on the latest scientific advancements.

Professional Associations and Memberships 🏛️

Rui Wen is actively engaged with the scientific community through his memberships in professional associations alongside prominent researchers such as Xue Li and Kangkang Wang. These affiliations support his commitment to collaborative research and knowledge sharing within the biomaterials field.

Training, Workshops, and Oral Presentations 🎤

Throughout his career, Rui Wen has participated in workshops and conferences focused on materials science, biomimetics, and spider silk research. His presentations have contributed to the broader understanding of silk protein synthesis and fiber properties. These opportunities have enabled him to refine his expertise, exchange ideas with other experts, and enhance the visibility of his work.

Key Contributions to Biomimetic Research 🌍

Rui Wen’s contributions to biomimetic research are centered on unraveling the complexities of spider silk proteins. By systematically studying the molecular composition of spider wrapping silk fibers, he has identified key proteins that contribute to the material’s exceptional properties. His insights into the protein composition and molecular weight relationships have been instrumental in developing high-performance synthetic fibers that may one day be applied in various fields, from medicine to aerospace.

Success Factors and Research Milestones 🏆

Rui Wen attributes his success to a disciplined approach to research, continuous learning, and collaborative engagement. His landmark achievements, including the genetic analysis of spider silk proteins and the development of artificial silk fibers with improved extensibility, mark important milestones in the field of biomaterials. His work has garnered attention for its potential to revolutionize sustainable material synthesis.

Publications and Laboratory Experience 🧪

With over 16 publications in SCI-indexed and Scopus journals, Rui Wen’s scholarly output reflects a high level of scientific rigor. His laboratory experience encompasses advanced techniques in protein characterization, gene sequencing, and fiber synthesis. In the lab, he works with state-of-the-art equipment to explore the biomimetic applications of silk proteins and innovate synthetic fiber production.

Sustainable Silk-Based Materials 🌱

Looking ahead, Rui Wen envisions a future where artificial spider silk fibers play a role in sustainable development. His ongoing research on silk protein functions and fiber synthesis holds promise for reducing the environmental impact of synthetic materials. Through continuous innovation, he aims to create sustainable materials that meet the demands of modern industries while preserving natural resources.

📖Publications:

Paper Title: Physical Properties of the Second Type of Aciniform Spidroin (AcSp2) from Neoscona theisi Reveal a pH-Dependent Self-Assembly Repetitive Domain

  • Authors: Yang, D., Wang, S., Wang, K., Zan, X., Wen, R.
  • Journal: ACS Biomaterials Science and Engineering
  • Year: 2023

Paper Title: Complete gene sequence and mechanical property of the fourth type of major ampullate silk protein

  • Authors: Wen, R., Wang, S., Wang, K., Zan, X., Meng, Q.
  • Journal: Acta Biomaterialia
  • Year: 2023

Paper Title: Characterization of two full-length tubuliform silk gene sequences from Neoscona theisi reveals intragenic concerted evolution and multiple copies in genome

  • Authors: Wen, R., Wang, K., Zan, X.
  • Journal: International Journal of Biological Macromolecules
  • Year: 2022

Paper Title: Characterization of two full-length Araneus ventricosus major ampullate silk protein genes

  • Authors: Wen, R., Yang, D., Wang, K., Zan, X.
  • Journal: International Journal of Biological Macromolecules
  • Year: 2022

Paper Title: The novel aciniform silk protein (AcSp2-v2) reveals the unique repetitive domain with high acid and thermal stability and self-assembly capability

  • Authors:Wen, R., Wang, K., Yang, D., Zan, X., Meng, Q.
  • Journal: International Journal of Biological Macromolecules
  • Year: 2022

 

Alemayehu Kumela | Advanced Fiber Technologies | Editorial Board Member

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Dr.Alemayehu Kumela | Adama Science and Technology University | Ethiopia

Professional Profiles:

Early Academic Pursuits

Alemayehu Getahun Kumela embarked on his academic journey with a focus on Advanced Fiber Technologies. The specifics of his early academic pursuits, such as his educational background, degrees earned, and academic interests, would provide a more comprehensive overview.

Professional Endeavors

Details about Alemayehu's professional career, including roles, positions, and significant experiences, are essential to understanding his contributions to the field. Information on his affiliations with institutions and organizations can shed light on the breadth of his professional engagements.

Contributions and Research Focus

Highlighting Alemayehu's notable contributions to Advanced Fiber Technologies, specifically outlining his research focus, areas of expertise, and any groundbreaking work or publications, can showcase the depth of his impact on the field.

Accolades and Recognition

If Alemayehu has received any awards, honors, or recognition for his work, including these details can underscore his achievements and the acknowledgment he has received from peers and the academic community.

Impact and Influence

Describing the impact Alemayehu has had on the academic and professional community, as well as any influence on research directions or methodologies, can provide insight into his standing in the field.

Legacy and Future Contributions

His legacy involves looking at the lasting effects of his work and the potential future contributions he envisions. Any plans, aspirations, or goals for advancing research or education in Advanced Fiber Technologies would be crucial to understanding his ongoing and future impact.

Notable Publications: