姓名:劉萬軍
職稱:研究員、博導
辦公電話:67792787
通訊地址:上海市松江區人民北路2999号2号學院樓5樓2510-2室
聯系郵箱:wjliuok@dhu.edu.cn
教育背景
2008.09-2012.07 402永利 紡織工程(紡織實驗班) 工學學士
2012.09-2017.03 402永利 紡織科學與工程(非織造材料與工程) 工學博士
2014.12-2016.12 哈佛大學 哈佛醫學院 聯合培養博士
工作經曆
2017.05-2021.03 康奈爾大學 生物醫學工程 博士後
2021.04-至今 402永利 研究員、博士生導師
研究方向:非織造材料、生物醫用材料
應用領域:醫療衛生用品、人工胰腺治療糖尿病
相關技術:生物打印、靜電紡絲、微流控、化學改性、針刺、水刺、熔噴、紡粘
教授課程:《非織造學》
科研項目
402永利高層次人才項目,高性能生物醫用材料,2021-2024,150萬元,在研,主持。
康奈爾大學-諾華諾德校企合作項目,納米纖維免疫隔離器件的開發,2018-2020,4500萬元,已結題,參與。
青年科學基金項目,51403033,表面具有取向溝槽結構的超細纖維制備及其對細胞生長作用的研究,2015-2017,25萬元,已結題,參與。
402永利博士創新資助項目,14D310106,異型納米纖維非織造材料制備技術與應用研究,2013-2016,1.5萬元,已結題,主持。
國家級大學生創新實驗項目,No. 091025524,微型脫膠機的研制,1萬元 2009-2010,已結題,主持。
代表論文
長期專注于生物醫用材料應用基礎研究,特别專注于纖維基免疫隔離人工胰腺的研制及其在糖尿病治療領域的應用基礎研究,研究涉及生物打印、靜電紡絲、微流控、化學改性、胰島移植等技術。截至目前,發表SCI論文22篇,一作或通訊作者11篇,包括Advanced Materials (IF: 30.849), Advanced Functional Materials (IF: 18.808),Small (IF: 13.281)等雜志;一區論文16篇,一作/通訊8篇,10篇影響因子大于10,一作/通訊4篇;14篇影響因子大于9,一作/通訊7篇,H因子13。研究工作被Nature, Science, Cell, Nature Materials, Nature Reviews Chemistry, Nature Reviews Materials引用11次,被影響因子10以上的高水平雜志引用110餘次,總計被引1668餘次,其中5篇論文(一作4篇)被引100次以上。
(#代表共同第一作者,*代表通訊作者)
1.Liu, W.; Flanders, J. A.; Wang, L.; Liu, Q.; Bowers, D. T. ; Wang, K.; Chu, A.; Wang, X.; Ernst, A.; Shariati, T.; Caserto, J.; Parker, B.; Gao, D.; Plesser, M.; Grunnet, L.; Rescan, C.; Carletto, R.; Winkel, L.; Melero-Martin, J.; Ma, M., A safe, fibrosis-mitigating, and scalable encapsulation device supports long-term function of insulin-producing cells. Small 2021, 18(8): 2104899 (影響因子: 13.281).
2.Shariati K., Ling A. S., Fuchs S., Dillenburger B., Liu, W.*, and Ma, M.*, Hylozoic by Design: Converging Material and Biological Complexities for Cell-driven Living Materials with 4D Behaviors, Advanced Functional Materials 2021, 2108057 (影響因子: 18.808)
3.Gao, D., Zhang, Y., Bowers, D.T.*, Liu, W.*, and Ma, M.*, Functional hydrogels for diabetic wound management, APL Bioengineering 2021, 5(3), 031503.
4.Zhang, X., Wang, Y., Liu, W.*, and Jin, X.*, Needle-punched Electret Air Filters (NEAFs) with high filtration efficiency, low filtration resistance, and superior dust holding capacity, Separation and Purification Technology 2021, 120146 (影響因子: 7.312)
5.Heinrich, M. A.#; Liu, W.#; Jimene, A.; Yang Jing.; Akpek, A.; Liu, X.; Pi, Q.; Mu, X.; Hu, N.; Schiffelers, R. M.; Prakash, J.; Xie, J.; Zhang, Y. S., 3D Bioprinting: from Benches to Translational Applications. Small 2019, 15 (23), 1805510 (影響因子: 13.281, 被引117次).
6.Liu, W.#; Zhang, Y. S.#; Heinrich, M. A.#; De Ferrari, F.; Jang, H. L.; Bakht, S. M.; Alvarez, M. M.; Yang, J.; Li, Y.-C.; Trujillo-de Santiago, G.; Miri, A. K.; Zhu, K.; Khoshakhlagh, P.; Prakash, G.; Cheng, H.; Guan, X.; Zhong, Z.; Ju, J.; Zhu, G. H.; Jin, X.; Shin, S. R.; Dokmeci, M. R.; Khademhosseini, A., Rapid Continuous Multimaterial Extrusion Bioprinting. Advanced Materials 2017, 29 (3), 1604630 (影響因子: 30.849, 被引238次).
7.Liu, W.; Heinrich, M. A.; Zhou, Y.; Akpek, A.; Hu, N.; Liu, X.; Zhong, Z.; Jin, X.; Khademhosseini, A.; Zhang, Y. S., Extrusion Bioprinting of Shear‐Thinning Gelatin Methacryloyl Bioinks. Advanced Healthcare Materials 2017, 6 (12), 1601451 (影響因子: 9.933, 被引241次).
8.Liu, W.; Zhong, Z.; Hu, N.; Zhou, Y.; Maggio, L.; Miri, A.; Fragasso, A.; Jin, X.; Khademhosseini, A.; Zhang, Y. S., Coaxial Extrusion Bioprinting of 3D Microfibrous Constructs with Cell-Favorable Gelatin Methacryloyl Microenvironments. Biofabrication 2018, 10 (2), 024102 (影響因子: 9.954, 被引145次).
9.Liu, W.#; Zhu, L.#; Huang, C.; Jin, X., Direct electrospinning of ultrafine fibers with interconnected macro-pores enabled by in situ mixing microfluidics. ACS Applied Materials & Interfaces 2016, 8 (50), 34870-34878 (影響因子: 9.229, 被引22次).
10.Liu, W.; Huang, C.; Jin, X., Electrospinning of grooved polystyrene fibers: effect of solvent systems. Nanoscale Research Letters 2015, 10 (1), 237 (影響因子: 4.703, 被引46次).
11.Liu, W.; Huang, C.; Jin, X., Tailoring the grooved texture of electrospun polystyrene nanofibers by controlling the solvent system and relative humidity. Nanoscale Research Letters 2014, 9 (1), 350 (影響因子: 4.703, 被引30次).
12.Liu, Q.; Wang, X.; Chiu, A.; Liu, W.; Fuchs, S.; Wang, B.; Wang, L.-H.; Flanders, J.; Zhang, Y.; Wang, K.; Melero-Martin, J. M.; Ma, M., A Zwitterionic Polyurethane Nanoporous Device with Low Foreign-Body Response for Islet Encapsulation. Advanced Materials 2021, 33(39): 2102852 (影響因子: 30.849).
13.Wang, L.; Ernst, A.U.; Flanders, J. A.; Liu, W.; Wang, X.; Boris Epel, K.D.; Koteacha, M.; Papas, K.K.; Ma, M., An inverse-breathing encapsulation system for cell delivery. Science Advances 2021, 7 (20), eabd5835 (影響因子: 14.136).
14.Wang, X.; Maxwell, K. G.; Bowers, D. T. ; Wang, K.; Flanders, J. A.; Liu, W.; Wang, L.; Wang, Y.; Liu, Q.; Chen, J.; Ernst A. U.; Melero-Martin, J. M.; Millman, J. R.; Ma, M., A nanofibrous encapsulation device for safe delivery of insulin-producing cells for type 1 diabetes. Science Translational Medicine 2021, 13(596), eabb4601(影響因子: 17.956).
15.Chen, J.; Wang, D.; Wang, L.; Liu, W.; Chu, A.; Shariati, K.; Liu, Q.; Wang, X.; Zhong, Zh.; Webb, J.; Schwartz, R. E.; Bouklas, N.; Ma, M., An adhesive hydrogel with “load-sharing” effect as tissue bandages for drug and cell delivery. Advanced Materials 2020, 2001628 (影響因子: 30.849).
16.Chatinier, D. N. d.; Figler, K. P.; Agrawal, P.; Liu, W.; Zhang, Y. S., The potential of microfluidics-enhanced extrusion bioprinting. APL Biomicrofluidics 2021, 15 (4), 041304.
17.Rocca, M.; Fragasso, A.; Liu, W.; Heinrich, M. A.; Zhang, Y. S., Embedded Multi-Material Extrusion Bioprinting. SLAS Technology 2018, 23 (2), 154–163 (影響因子: 3.047).
18.Yue, K.; Liu, Y.; Byambaa B.; Singh V.; Liu W.; Li X.; Sun Y.; Zhang, Y. S.; Tamayol A.; Zhang P.; Ng K.; Annabi N.; Khademhosseini, A. Visible Light Crosslinkable Human Hair Keratin Hydrogels. Bioengineering & Translational Medicine 2018, 3 (1), 37–48 (影響因子: 10.711).
19.Deng, C.; Liu, W.; Zhang, Y.; Huang, C.; Zhao, Y.; Jin, X., Environmentally friendly and breathable wet-laid hydroentangled nonwovens for personal hygiene care with excellent water absorbency and flushability. Royal Society Open Science 2018, 5 (4), 171486 (影響因子: 2.963).
20.Jia, W.; Gungor-Ozkerim, P. S.; Zhang, Y. S.; Yue, K.; Zhu, K.; Liu, W.; Pi, Q.; Byambaa, B.; Dokmeci, M. R.; Shin, S. R.; Khademhosseini, A., Direct 3D bioprinting of perfusable vascular constructs using a blend bioink. Biomaterials 2016, 106, 58-68 (影響因子: 12.479).
21.Huang, C.; Ouyang, Y.; Niu, H.; He, N.; Ke, Q.; Jin, X.; Li, D.; Fang, J.; Liu, W.; Fan, C.; Lin, T., Nerve Guidance Conduits from Aligned Nanofibers: Improvement of Nerve Regeneration through Longitudinal Nanogrooves on a Fiber Surface. ACS Applied Materials & Interfaces 2015, 7 (13), 7189-7196 (影響因子: 9.229).
專利專著
1.Liu, W.; Ma, M.; Flanders, J. A.; Wang, L.; Bowers, D. T. ; Liu, Q., Nanofiber-enabled encapsulation devices and uses thereof (US patent, Provisional Application submitted).
2.章倩;劉萬軍;錢浩;何源;蔣慧;郁崇文;章悅庭;邱夷平,實驗室用多功能微型脫膠機,專利号ZL201120026707.1(已授權)。
上海千人(2021)
402永利高層次引進人才(2021)
王善元優秀博士學位論文(2019)
402永利優秀博士論文(2018)
上海市優秀畢業生(2017)
國家公派留學人員獎學金 (2014)
402永利研究生創新基金(2013)
國家級大學生創新實驗項目(2009)
社會任職
中國紡織工程學會高級會員,擔任多個雜志審稿人,累計審稿50餘篇,包括Advanced Materials, Advanced Functional Materials, Advanced Science, Small, Biofabrication, ACS Applied Materials & Interface, ACS Applied Nano Materials, Journal of Membrane Science, Industrial & Engineering Chemistry Research, Textile Research Journal, Reactive and Functional Polymers, Nanoscale Research Letters, Royal Society Open Science, Journal of Applied Polymer Science, International Journal of Polymeric Materials and Polymeric Biomaterials, Journal of Industrial Textiles.
國際交流
與哈佛大學,康奈爾大學,加州大學洛杉矶分校等高校緊密合作。
