School of Chemistry and Environmental Engineering, Changchun University of Science and Technology - China
Author Profile
ORCID
🎓 Early academic pursuits
Xincui Shi began her academic journey with a bachelor’s degree in organic chemistry from taishan university, shandong, china, in 2006. her strong foundational interest in polymer science led her to pursue a ph.d. in polymer chemistry and material science under the supervision of prof. yuesheng li at the state key laboratory of polymer physics and chemistry, changchun institute of applied chemistry, chinese academy of sciences. during her doctoral studies (2006–2011), she focused on organometallic synthesis and modification of polyolefins, gaining deep insights into stereospecific polymerization mechanisms. this solid academic base positioned her as a future leader in advanced materials and their applications in fields such as biomedical engineering and power electronics.
🧪 Professional endeavors
Xincui Shi has accumulated over a decade of research and teaching experience in prestigious chinese institutions. she currently serves as an associate professor at changchun university of science and technology, where she leads projects focused on recyclable elastomeric polyester materials and conductive biomaterials for wearable healthcare devices. her earlier career includes roles as an assistant research fellow and associate professor at the changchun institute of applied chemistry. under the guidance of renowned mentors like prof. peibiao zhang and prof. yanhou geng, she worked extensively on π-conjugated polymers, catalyst design, and living polymerization techniques, contributing to high-performance materials relevant to regenerative medicine and power electronics applications.
🔬 Contributions and research focus
Shi’s research is deeply rooted in polymer chemistry and material science, with particular emphasis on biodegradable and electroactive materials. her expertise lies in the design, synthesis, and functionalization of π-conjugated systems such as poly(3-hexylthiophene)s, block copolymers, and carbene-transition metal catalysts. notable contributions include her work on kumada Regenerative medical materials catalyst transfer polycondensation (kctp) for precision polymer synthesis and the development of conductive hydrogels for wearable sensors. her research addresses key challenges in nerve regeneration and tissue engineering, bridging the gap between polymer innovation and practical biomedical and power electronics applications.
🌍 Impact and influence
Xincui Shi's work holds substantial impact across interdisciplinary domains, especially in biomedical material design and environmentally friendly polymers. her contributions to the synthesis and modification of electroactive polyesters and scaffolds have advanced current approaches in neural repair. through her leadership in multiple research grants from the national natural Regenerative medical materials science foundation and educational commission of jilin province, she has nurtured scientific innovation and mentored the next generation of materials scientists. her interdisciplinary research, which merges chemical synthesis, materials engineering, and device application, is paving the way for new functional materials in emerging sectors like smart healthcare and power electronics.
📚 Academic cites
Shi has contributed to numerous peer-reviewed journals in polymer chemistry and materials science, with her publications frequently cited for their novelty and experimental precision. her work on controlled polymerization techniques, polyolefin copolymers, and conductive biomaterials is often referenced in studies related to sustainable material development and electrical Regenerative medical materials applications. her collaborations with experts from the chinese academy of sciences have yielded high-impact research that continues to influence both academic and industrial projects in polymers and power electronics.
🌱 Legacy and future contributions
With a career spanning over 15 years in research and academia, xincui shi is dedicated to fostering innovation in sustainable, functional polymer systems. her future work aims to deepen the understanding of structure–property relationships in biodegradable polyesters and their interface with biological systems. projects such as the construction of amphiphilic conductive fibrous scaffolds and non-conjugated conductive materials for neural injury repair signal a growing focus on translational science. by combining her knowledge of organic chemistry, polymer physics, and applied electronics, she is set to leave a lasting legacy in both academic research and real-world applications, especially in wearable biosensors and power electronics.
Notable Publications
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Title: A micropatterned conductive electrospun nanofiber mesh combined with electrical stimulation for synergistically enhancing differentiation of rat neural stem cells
Author(s): Huanhuan Yan, Yu Wang, Linlong Li, Xiaosong Zhou, Xincui Shi, Yen Wei, Peibiao Zhang
Journal: Journal of Materials Chemistry B
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Title: Preparation of polycarbonate/gelatine microspheres using a high-voltage electrostatic technique for enhancing the adhesion and proliferation of mesenchymal stem cells
Author(s): Chunxu Li, Linlong Li, Rui Ma, Zongliang Wang, Xincui Shi, Xiaoyu Yang, Yu Wang, Peibiao Zhang
Journal: Journal of Materials Science
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Title: Controlled synthesis of high molecular weight poly(3-hexylthiophene)s via Kumada catalyst transfer polycondensation with Ni(IPr)(acac)₂ as the catalyst
Author(s): Xincui Shi
Journal: (Journal name not provided—likely to be a chemistry or polymer science journal; please confirm source or DOI for precise citation)
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Title: Kumada catalyst transfer polycondensation for controlled synthesis of polyfluorenes using 1,3-bis(diarylphosphino)propanes as ligands
Author(s): Xincui Shi
Journal: (Journal name not provided—please confirm source or DOI for accurate identification)