Fangyin Dai | Natural Fibers | Best Innovation Award

Prof Dr. Fangyin Dai | Natural Fibers | Best Innovation Award

Southwest University, China

Profiles:

Current Position📘

Professor Fangyin Dai is a distinguished researcher and professor at Southwest University in Chongqing, China. Renowned for his profound contributions to the fields of silkworm genetics, biomaterials, and gene functional studies, Prof. Dai’s work has laid the groundwork for advancements in biotechnological applications. His academic journey has been marked by a focus on understanding silkworm resources, exploring genetic mapping, and the functional characterization of mutant genes. This focus on biomaterials is an extension of his expertise in silkworm genetics, making him a leading figure in both genetics and innovative material sciences.

Publication Achievements and Recognition 📚

Prof. Dai’s publishing record is prolific, with over 400 research papers in top-tier journals, including Science, Nature Biotechnology, and Nature Communications. His contributions have garnered a citation index of 5627, an H-index of 27, and a G-index of 73, reflecting his extensive impact on the fields of biology, genetics, and biomaterials. His research has opened new pathways in functional genomics, enabling other researchers to explore and build upon his findings, especially in silkworm biology.

Research Projects and Innovations 🔬

Throughout his career, Prof. Dai has spearheaded more than 30 research projects, many under China’s prestigious National 863 Program and the National Natural Science Foundation. Notably, he developed the world’s largest gene bank for silkworms. His genetic studies have led to groundbreaking discoveries of 35 new mutant types of silkworms, each providing unique insights into traits associated with color, body shape, and development. His commitment to innovation in biomaterials has also led to the development of five new silkworm varieties, pushing the boundaries of functional and structural biology.

Ongoing Research: Genetic Mutations and Biomaterial Applications 🧬

Prof. Dai’s current work emphasizes the genetic mapping and cloning of silkworm traits, with an interest in the molecular basis of specific mutations. His lab’s ongoing research focuses on identifying the molecular mechanisms that drive physical and behavioral traits in silkworms, revealing insights that benefit not only genetics but also the development of silk-based biomaterials. As a result, his research contributes directly to fields such as textile engineering and medical biomaterials.

Contributions to Silkworm Breeding and Genetic Resources 🌱

A notable achievement of Prof. Dai is his work in creating breeding materials and new silkworm varieties. By carefully studying and documenting the inheritance and linkage of silkworm traits, he developed methods to engineer traits like pigmentation and resilience. His successful deciphering of critical silkworm genes has made it possible to produce biomaterials tailored for specific functions, whether for stronger textiles or biodegradable materials in medicine. His expertise has made significant strides in sustainable biomaterials by harnessing natural resources.

Scholarships and Awards 🥇

Prof. Dai has received several prestigious awards for his pioneering work, though details of specific honors were not provided. His achievements have been recognized by leading institutions and societies focused on biomaterials, genetics, and applied biology.

Professional Associations and Editorial Roles 🏅

As a respected figure in biomaterial research and genetics, Prof. Dai is a member of several professional organizations related to biology and biomaterials. His work has led him to collaborate with other prominent researchers worldwide, especially in projects focused on genetic modification and application of silk-based materials in medical fields. He also serves as an editorial member of leading scientific journals, offering his expertise in genetics and biomaterials to guide the future of academic publications.

Training & Workshops and Bioinformatics Contributions 💻

Prof. Dai has been active in training upcoming scientists in genetics and biomaterials. Through workshops and academic programs, he introduces students and researchers to cutting-edge techniques in bioinformatics and silkworm gene mapping. His bioinformatics expertise enables him to analyze complex genetic information, accelerating discoveries and improving understanding of biomaterial applications.

Oral Presentations and Conferences 🎤

Known for his engaging presentations, Prof. Dai regularly participates in international conferences where he shares his findings on genetic mutations in silkworms and their implications for biomaterials. His talks focus on the applied genetics of silkworms, covering both the scientific details of his research and its practical applications in the materials sciences.

Success Factors and Publications 📜

Prof. Dai’s success stems from his commitment to scientific excellence and innovation. His work is rooted in collaborative research, as seen in his project with international colleagues to map silkworm genes. His dedication to expanding the applications of his findings is also evident in his numerous publications, where he details breakthroughs in silk-based biomaterials and genetically engineered silkworms. The comprehensive resources he has developed are invaluable for further research, and his numerous publications document these achievements, serving as critical references for other researchers in the field.

Key Projects and Laboratory Experience 🔍

In addition to his genetic research, Prof. Dai’s laboratory is equipped with state-of-the-art technology for the study of silkworm biomaterials. He has led projects that investigate the structural and functional aspects of these materials, with applications that extend from biomedicine to sustainable textiles. His team’s laboratory work, which focuses on replicating natural materials, is at the forefront of biomaterial research.

Vision and Future Prospects 🌎

With a commitment to pushing the boundaries of genetics and biomaterials, Prof. Dai continues to influence these fields profoundly. His work in silkworm biomaterials and genetic mapping contributes to both the understanding of biological processes and the development of sustainable technologies. His legacy is one of innovation, bridging genetics with practical applications and paving the way for the next generation of biomaterials.

📖Publications:

Paper Title: PupaNet: A versatile and efficient silkworm pupae (Bombyx mori) identification tool for sericulture breeding based on near-infrared spectroscopy and deep transfer learning

  • Authors: He, H., Huang, H., Zhu, S., Dai, F., Zhao, T.
  • Journal: Computers and Electronics in Agriculture
  • Year: 2024

Paper Title: Cuproptosis-based layer-by-layer silk fibroin nanoplatform-loaded PD-L1 siRNA combining photothermal and chemodynamic therapy against metastatic breast cancer

  • Authors: Li, Z., Cheng, L., Xu, X., Xiao, B., Dai, F.
  • Journal: Materials Today Bio
  • Year: 2024

Paper Title: QTL analysis to identify genes involved in the trade-off between silk protein synthesis and larva-pupa transition in silkworms

  • Authors: Gao, R., Li, C., Zhou, A., Tong, X., Dai, F.
  • Journal: Genetics Selection Evolution
  • Year: 2024

Paper Title: FOXO-regulated OSER1 reduces oxidative stress and extends lifespan in multiple species

  • Authors: Song, J., Li, Z., Zhou, L., Rasmussen, L.J., Dai, F.
  • Journal: Nature Communications
  • Year: 2024

Paper Title: Flat silk cocoons: A candidate material for fabricating lightweight and impact-resistant composites

  • Authors: Shao, J., Liu, Y., Hou, Z., Dai, F., Cheng, L.
  • Journal: International Journal of Biological Macromolecules
  • Year: 2024

 

Rui Wen | Natural Fibers | Best Researcher Award

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

 

Yaojie Xu | Fiber Characterization and Testing | Best Researcher Award

Dr. Yaojie Xu | Fiber Characterization and Testing | Best Researcher Award

Doctorate at Beijing Institute of Technology, China

Profile:

Current Position 📍

Yaojie Xu is currently pursuing his Ph.D. in Artillery, Automatic Weapons, and Ammunition Engineering at the Beijing Institute of Technology. Since September 2022, he has been contributing to the development of advanced protective materials, fiber modification techniques, and ballistic protection strategies. His research within the School of Mechanical and Electrical Engineering has earned him recognition in both academic and professional circles. Yaojie’s work focuses on enhancing materials for ballistic protection and damage resistance, positioning him as a leading young researcher in the field of military engineering.

Publication Achievements 📚

Yaojie Xu has already made significant contributions to the scientific community, with 8 journal articles published in highly regarded SCI and Scopus-indexed journals. These publications emphasize innovative methodologies for fiber modification and ballistic protection, offering advanced solutions for military and defense applications. His findings on the improved ballistic limit velocity of modified aramid fabrics have been acknowledged for their potential to revolutionize protective gear. His research is notable for its practical implications, particularly in enhancing the performance of protective fabrics under harsh environmental conditions like ultraviolet radiation.

Ongoing Research 🧪

Yaojie Xu is currently involved in 4 major research projects, focusing on fiber modification, protective materials, and ammunition engineering. One of his groundbreaking studies involves the modification of aramid fabric with CuO and ZnO particles, which has led to a remarkable 185.1% increase in ballistic performance compared to neat fabrics. This research aims to create lightweight, highly durable materials that can withstand extreme forces, such as ballistic impacts, while maintaining flexibility and user comfort. His ongoing work also includes exploring new techniques for reinforcing fibers with additional functionalities, pushing the boundaries of current material science in protective gear design.

Research Interests 🔬

Yaojie’s core research interests include fiber modification, advanced protective materials and structures, and ballistic protection. His work is driven by a desire to improve the performance and resilience of protective materials in military applications. By focusing on aramid fibers and their modification with particles like CuO and ZnO, Yaojie seeks to enhance their protective qualities under stress conditions such as UV radiation. His research on single-layer and two-layer fabrics showcases his deep interest in improving protective structures without significantly increasing their weight.

Academic Background 🎓

Yaojie Xu embarked on his Ph.D. journey in September 2022 at the Beijing Institute of Technology, specializing in Artillery, Automatic Weapons, and Ammunition Engineering. His strong academic background, particularly in mechanical and electrical engineering, has enabled him to explore the intersection of material science and defense technologies. The focus of his doctoral studies is on the modification of materials for ballistic protection and damage mitigation, areas that have far-reaching implications for the military and defense sectors.

Scholarships and Awards 🏆

Yaojie’s academic journey has been marked by several accolades and scholarships that reflect his dedication and excellence in research. These scholarships have provided him with the resources and opportunities to explore cutting-edge technologies in protective materials and fiber modification. His achievements include recognition for his high-impact publications and contributions to defense engineering.

Bioinformatics 💻

While primarily focused on material science and engineering, Yaojie has also integrated computational methods into his research. His use of bioinformatics tools helps him model and simulate the behavior of fibers and protective materials under various conditions. These simulations provide valuable insights into how modifications at the molecular level can enhance the overall performance of protective materials in real-world scenarios.

Professional Associations 🤝

Yaojie is an active member of several professional associations related to engineering and material science. These memberships provide him with access to cutting-edge research, conferences, and collaboration opportunities. Being part of these networks also allows Yaojie to stay updated with the latest trends and advancements in his field, contributing to his growth as a researcher.

Training & Workshops 🛠️

Throughout his academic career, Yaojie has participated in various training programs and workshops focused on material engineering, fiber modification techniques, and defense technologies. These sessions have not only enhanced his technical skills but also broadened his understanding of practical applications in his research areas. The training sessions have helped him refine his methodologies, enabling him to produce highly impactful research results.

Oral Presentations 🎤

Yaojie has presented his research findings at several national and international conferences and seminars, where his work on fiber modification and protective materials has been well-received. His presentations focus on the practical applications of his research, particularly in improving the safety and efficiency of protective gear used in defense sectors. These platforms have also given Yaojie the opportunity to collaborate with other researchers and experts in the field.

Tasks Completed as a Researcher ✅

During his Ph.D. studies, Yaojie has completed multiple high-impact research tasks. These include conducting extensive laboratory experiments on aramid fiber modification, analyzing the ballistic limit velocity of modified fabrics, and developing innovative methods for enhancing the protective capabilities of these materials. His work has resulted in 9 patents, further cementing his role as an innovator in the field of protective material design.

Success Factors 🌟

Yaojie’s success can be attributed to his dedication, innovative thinking, and strong technical expertise. His ability to integrate complex material science with real-world applications has made him a standout researcher. His relentless pursuit of improvement in protective gear performance underlines his commitment to the safety and effectiveness of military personnel. His success is also built on his ability to collaborate across disciplines, merging engineering with bioinformatics and material science.

📖Publications:

Paper Title: Experimental and numerical study on CuO/ZnO-modified aramid fabric for ballistic and UV radiation protection

  • Authors: Liu, L., Huang, F., Xu, Y., Lan, X., Huang, G.
  • Journal: Polymer Testing
  • Year: 2024

Paper Title: Review on the mechanical deterioration mechanism of aramid fabric under harsh environmental conditions

  • Authors: Xu, Y., Zhang, H., Huang, G.
  • Journal: Polymer Testing
  • Year: 2023

Paper Title: Numerical Investigation of Anti-ballistic Property of ZnO-modified Aramid Fabrics

  • Authors: Xu, Y., Liu, H., Zhang, H., Huang, G.
  • Journal: Binggong Xuebao/Acta Armamentarii
  • Year: 2023

Paper Title: Shear response behavior of SSE/Kevlar composite fabric before and after shear interlocking effect

  • Authors: Ma, Y., Hong, X., Xu, Y., Lei, Z., Huang, G.
  • Journal: Composite Structures
  • Year: 2023

Paper Title: Experimental and numerical study on the ballistic performance of a ZnO-modified aramid fabric

  • Authors: Xu, Y.J., Ma, Y., Xie, Y.C., Zhang, H., Huang, G.Y.
  • Journal: International Journal of Impact Engineering
  • Year: 2023