School of Biology and Engineering (School of Modern Industry for Health and Medicine) - Chile
Author Profile
ORCID
🎓 Early academic pursuits
Lijing Teng's journey into the world of biomedical engineering began with a deep curiosity for biomaterials and their applications in medicine. she pursued her ph.d. in biomedical engineering at south china university of technology, where she developed a strong foundation in material science, polymer chemistry, and bioengineering. her doctoral research was centered on designing innovative biomaterials with multifunctional properties, laying the groundwork for her future contributions in the field. her academic excellence and dedication positioned her as a promising scientist in biomedical materials research.
🚀 Professional endeavors
As an associate professor at guizhou medical university, lijing teng has dedicated her career to advancing biomaterial science and its applications in regenerative medicine. her research is at the intersection of materials science and biology, where she focuses on developing cutting-edge solutions for medical challenges. she has been instrumental in designing novel hydrogels, adhesives, and porous scaffolds that enhance tissue regeneration, wound healing, and drug delivery. through her innovative teaching methods and mentorship, she has inspired numerous students to explore the potential of biomaterials in medical science.
🧐 Contributions and research focus
Lijing Teng's research revolves around the development of supramolecular biomaterials, which exhibit advanced properties such as self-healing, bioadhesion, and controlled degradation. her work on hydrogels has led to breakthroughs in designing smart materials that mimic natural extracellular matrices, improving their biocompatibility and functionality in clinical applications. her adhesive biomaterials have been optimized for wound closure and surgical applications, providing alternatives to traditional sutures. her research on porous scaffolds has significantly supramolecular hydrogel contributed to tissue engineering by creating environments that promote cell growth and regeneration. her interdisciplinary approach integrates chemistry, physics, and biology to create biomaterials with unprecedented capabilities.
🏆 Accolades and recognition
Throughout her career, lijing teng has received recognition for her outstanding contributions to biomedical engineering. her research publications in high-impact journals have been widely supramolecular hydrogel cited, reflecting her influence in the field. she has presented her findings at international conferences, earning accolades for her pioneering work in biomaterials. her contributions to the design of multifunctional materials have been acknowledged by peers and industry leaders, positioning her as a key researcher in the advancement of supramolecular biomaterials.
👨💻 Impact and influence
Lijing Teng's work has significantly impacted the field of biomaterials, particularly in the development of advanced materials for medical applications. her innovative hydrogels and adhesives have the potential to transform wound care, surgical procedures, and tissue engineering. her research has influenced both academia and industry, leading to collaborations with medical supramolecular hydrogel institutions and material scientists to refine and commercialize biomaterial-based medical solutions. through her mentorship, she has cultivated a new generation of researchers dedicated to pushing the boundaries of biomedical engineering.
🌍 Legacy and future contributions
As a leader in biomaterials research, Lijing Teng continues to push the limits of material innovation. her future work aims to further enhance the properties of supramolecular biomaterials, making them more adaptive and responsive to biological environments. she is committed to bridging the gap between fundamental research and clinical applications, ensuring that her materials contribute to better healthcare solutions. her vision extends to fostering global collaborations and interdisciplinary research, solidifying her legacy as a pioneer in biomaterials science. her contributions will continue to shape the future of regenerative medicine, improving lives through cutting-edge biomedical engineering.
Notable Publications
-
Title: Shape-Recoverable Macroporous Nanocomposite Hydrogels Created via Ice Templating Polymerization for Noncompressible Wound Hemorrhage
Author(s): Lijing Teng, Kaide Xia, Tianbao Qian, Zuquan Hu, Liang Hong, Ying Liao, Guorui Peng, Zhongrun Yuan, Yunhua Chen, et al.
Journal: ACS Biomaterials Science & Engineering
-
Title: Supramolecular and dynamic covalent hydrogel scaffolds: from gelation chemistry to enhanced cell retention and cartilage regeneration
Author(s): Lijing Teng
Journal: Journal of Materials Chemistry B
-
Title: Weak Hydrogen Bonds Lead to Self-Healable and Bioadhesive Hybrid Polymeric Hydrogels with Mineralization-Active Functions
Author(s): Lijing Teng
Journal: Biomacromolecules
-
Title: Synthesis and characterization of star-shaped poly(l-lactide)s with an erythritol core and evaluation of their rifampicin-loaded microspheres for controlled drug delivery
Author(s): Lijing Teng
Journal: Polymer Bulletin
-
Title: Synthesis and characterization of star-shaped PLLA with sorbitol as core and its microspheres application in controlled drug release
Author(s): Lijing Teng
Journal: Journal of Applied Polymer Science