俞彬
發布人: 星禧   發布時間: 2023-01-04    瀏覽次數:

俞彬博士副研究員

高分子科學與工程系碩士生導師

所屬課題組🛟:蒙泰課題組(朱美芳院士課題組)

郵箱🤵‍♂️:yubin@dhu.edu.cn

地址:材料沐鸣2C408

 

 

個人簡介💃🏽✂️:

沐鸣2平台材料沐鸣2副研究員,上海交通大學醫沐鸣2博士後🙌🏿,沐鸣2平台纖維改性國家重點實驗室與德國萊布尼茲高分子研究所聯合培養博士。致力於納米能源系統在環境及人體中的高熵能源收集和轉化🤳🏻,並應用於原位自供能電激勵組織再生及診療一體化系統開發🧚🏿‍♂️,在能源材料👳‍♀️、生物醫用材料及生命科學的多學科交叉融合與理論創新方面取得階段性成果😴。迄今以第一/通訊作者在Advanced Science↗️👩🏽‍🏫,Nano EnergyBiomaterialsAdvanced Fiber Materials🎡,Chemical Engineering Journal等國際重要學術期刊發表論文30余篇👩🏻‍🍳,申請專利20余件,主持國家科技部重點研發計劃子課題🚻,國家自然科學基金青年基金項目、上海市啟明星等科研項目5項🧍🏻,並擔任中國化學會、中國紡織工程學會、中國生物材料學會和CIAA成員。

 

研究方向:

(1)納米能源系統的高熵能源收集及自驅動可穿戴應用

(2)自供能電激勵促進組織再生及診療一體化系統研究

(3)聚合物納米纖維氣凝膠及其智能醫用材料設計

 

教育背景🌴:

(1) 2013-09  2018-12,沐鸣2平台,材料學⛑️,博士(俞昊研究員)

(2) 2015-10  2016-04,萊布尼茲高分子研究所(Leibniz-Institut für Polymerforschung Dresden e. V.),材料學,聯合培養博士(Dr. Shanglin Gao

(3) 2009-09  2013-06,沐鸣2平台,高分子材料與工程👷🏼🏗,學士(俞昊研究員)

 

工作經歷:

(1) 2025-02至今🚂,沐鸣2平台,沐鸣2登录,副研究員

(2) 2021-07 2025-01💂🏻,沐鸣2平台🧖🏽,沐鸣2登录,講師

(3) 2019-06  2021-06,上海交通大學醫沐鸣2附屬第九人民醫院,博士後

 

主持科研項目(課題)及人才計劃項目🥠:

(1) “十四五”國家重點研發計劃,高安全主動防護綠色防疫材料及產業應用示範

(2) 國家自然科學基金青年科學基金項目,納米纖維基自供能電激勵骨修復材料研究

(3) 上海市科委啟明星培育(揚帆專項)🧳,生物耦合納米發電機原位電刺激成骨及機製研究

(4)上海市超級博士後激勵計劃,共生型電刺激系統在細胞培養及促頜骨再生

(5) 中國博士後科學基金面上項目🈷️,基於3D打印的共生型電刺激系統的頜骨修復

 

代表性論文:

[1] M. Liu, X. Zhang, Y. Xin, D. Guo, G. Hu, Y. Ma, B. Yu*, T. Huang, C. Ji, M. Zhu, H. Yu, Earthworm-inspired ultra-durable sliding triboelectric nanogenerator with bionic self-replenishing lubricating property for wind energy harvesting and self-powered intelligent sports monitoring, Adv. Sci. 11 (2024) 2401636.

[2] B. Yu, L. Zhou, X. Zhang, G. Hu, H. Min, Y. Qiu, T. Huang, Y. Wang, M. Zhu, H. Yu, Respiration-mediated self-switched triboelectric nanogenerator for wearable point-of-care prevention and alarm of asthma, Nano Energy 106 (2023) 108058.

[3] R. Mao, B. Yu#, J. Cui, Z. Wang, X. Huang, H. Yu, K. Lin, S.G.F. Shen, Piezoelectric stimulation from electrospun composite nanofibers for rapid peripheral nerve regeneration, Nano Energy 98 (2022) 107322.

[4] B. Yu, H. Yu, T. Huang, H. Wang, M. Zhu, A biomimetic nanofiber-based triboelectric nanogenerator with an ultrahigh transfer charge density, Nano Energy 48 (2018) 464-470.

[5] B. Yu, H. Yu, H. Wang, Q. Zhang, M. Zhu, High-power triboelectric nanogenerator prepared from electrospun mats with spongy parenchyma-like structure, Nano Energy 34 (2017) 69-75.

[6] B. Yu, H. Shi, X. Han, S. Wang, R. Sheng, L. Gu, X. Liu, K. Zhang, T. Huang, M. Zhu, H. Yu, Mass-producible hybrid polytetrafluoroethylene nanofiber mat with radial island-chain architecture as anti-pathogen cloth in individual protection, Adv. Fiber Mater. 6 (2024) 1839-1854.

[7] J. Cui, B. Yu#, D. Li, Z. Fu, X. Yang, L. Jiang, X. Wang, K. Lin, Remodeling electrophysiological microenvironment for promoting bone defect repair via electret hybrid electrospun fibrous mat, Adv. Fiber Mater. 6 (2024) 1855-1873.

[8] B. Yu, Z. Qiao, J. Cui, M. Lian, Y. Han, X. Zhang, W. Wang, X. Yu, H. Yu, X. Wang, K. Lin, A host-coupling bio-nanogenerator for electrically stimulated osteogenesis, Biomaterials 276 (2021) 120997.

[9] C. Liu, B. Yu#, Z. Zhang, L. Su, R. Wang, Y. Jin, W. Guo, R. Li, Z. Zeng, P. Mei, J. Chang, L. Xia, C. Yang, B. Fang, LIPUS activated piezoelectric pPLLA/SrSiO3 composite scaffold promotes osteochondral regeneration through P2RX1 mediated Ca2+ signaling pathway, Biomaterials 317 (2025) 123084.

[10] X. Zhang, M. Liu, Z. Zhang, H. Min, C. Wang, G. Hu, T. Yang, S. Luo, B. Yu*, T. Huang, M. Zhu, H. Yu, Highly durable bidirectional rotary triboelectric nanogenerator with a self-lubricating texture and self-adapting contact synergy for wearable applications, Small 19 (2023) 2300890.

[11] X. Zhang, G. Hu, M. Liu, C. Wei, B. Yu*, T. Huang, M. Zhu, H. Yu, Advanced electrospun fiber-based triboelectric nanogenerators: From diversified designs to customized applications, Chem. Eng. J. 503 (2025) 158636.

[12] X. Zhang, Z. Qiao, M. Lian, Y. Han, J. Lin, B. Yu*, L. Peng, H. Wang, K. Dai, In-situ electret scaffolds with controllable electric fields printed by mew for bone tissue regeneration, Chem. Eng. J. 496 (2024) 154330.

[13] B. Yu, Q. Gu, G. Hu, T. Yang, M. Liu, H. Shi, Z. Xiang, T. Huang, M. Zhu, H. Yu, A reduction-driven directed aggregation strategy for fabricating stretchable conductive core-sheath fibers in wearable electronics, Chem. Eng. J. 480 (2024) 148058.

[14] L. Sun, X. Chen, K. Ma, R. Chen, Y. Mao, R. Chao, H. Wang, B. Yu*, J. Wang, S. Zhang, Novel titanium implant: A 3D multifunction architecture with charge-trapping and piezoelectric self-stimulation, Adv. Healthcare Mater. 12 (2023) 2202620.

[15] G. Hu, J. Wang, D. Liu, X. Zhang, B. Yu*, T. Huang, M. Zhu, H. Yu, A joule-heated carbon nanofiber aerogel-supported catalyst for hydrogen production via methanol steam reforming, Carbon 214 (2023) 118311.

 

歡迎報考:

課題組團隊氛圍融洽奮進🫰,學術思想活躍有趣🤑,科研實驗條件一流;熱忱歡迎廣大有誌學子攻讀研究生!歡迎各位同學及合作者郵件聯系👮🏿:yubin@dhu.edu.cn🧗🏿‍♀️。
 
 
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