李保强

发布者:李思曼发布时间:2016-02-29浏览次数:1586


基本信息

哈尔滨工业大学材料学院/城市水资源与水环境国家重点实验室

哈尔滨工业大学科学园C3栋412室

哈尔滨工业大学433信箱(150001)

电话:+86-451-86414291

传真:+86-451-86414291

电子邮件:libq@hit.edu.cn


教育经历

1996.9—2000.7 浙江大学 化学系,理学学士;

2000.9—2005.6 浙江大学 高分子系,工学博士


工作经历

2012.4—至今    哈尔滨工业大学 副教授/博士生导师

2008.9--2012.9   哈尔滨工业大学 材料学院 副教授

2005.7-2008.8   哈尔滨工业大学 材料学院 讲师

2010.7--至今    哈尔滨工业大学 城市水资源与水环境国家重点实验室 副教授

2015.8-至今     哈尔滨工业大学 特种陶瓷研究所  副所长

2010.11-2011.11  哈佛大学,访问学者

2005.12-2009.04  哈尔滨工业大学,博士后


主要学术兼职

2014年~至今,Journal of  Bioelectronics and Nanotechnology编委

2014年~至今,中国仪器仪表学会功能材料分会,理事

2005年-至今,黑龙江生物医学工程学会,理事;  


学术奖励及荣誉

Ø 2015哈尔滨青年创业创新大赛二等奖

Ø 2014年城市水资源与水环境国家重点实验室论文影响力奖

Ø 2014年Science Summit for  Urban Water Best Poster Award (一等奖)

Ø 2012年城市水资源与水环境国家重点实验室优秀论文奖


研究方向

环境友好生物质炭  :以金属离子污染物催化生物质定向转化为目标,融合电、磁与化学等协同转化技术,开展金属离子催化下微波或水热炭化制备生物质炭或磁性荧光碳纳米点的研究,揭示环境污染物稳定化转化与生物质材料的高效循环利用技术。  

壳聚糖的功能化:针对壳聚糖不溶于水、无法光交联和磁场响应性;采用酰化改性获得水溶性且光固化壳聚糖水凝胶,研究图案化微尺度水凝胶和磁性组装技术,以研究环境污染物对三维细胞微组装提的刺激响应性。  

层状水凝胶调控陶瓷层状结构:层状结构是贝壳、骨等天然生物材料高强、高韧性决定因素,通过交变浓度设计壳聚糖水凝胶模板层状结构,进而调控陶瓷层状结构(层数、层厚、层厚比和层排布),提高其强度和韧性,调控定向孔道的陶瓷多孔滤料。  


代表性论文

1. Hu QL, Li BQ, Wang M, Shen JC. Preparation and  characterization of biodegradable chitosan/hydroxyapatite nanocomposite rods via  in situ hybridization: A potential material as internal fixation of bone  fracture. Biomaterials. 2004;25:779-85.

2. Li B*, Wang L, Xu F, Gang X, Demirci U, Wei D, et  al. Hydrosoluble, UV-crosslinkable and injectable chitosan for patterned  cell-laden microgel and rapid transdermal curing hydrogel in vivo. Acta  Biomater. 2015;22:59-69.

3. Li BQ*, Gao YS, Li X, Feng YJ, Zhou Y. Chitosan  hydrogels with 3D Liesegang ring structure for rifampicin release. Journal of  Controlled Release. 2011;152:47.

4. Li BQ*, Gao YS, Feng YJ, Ma B, Zhu RX, Zhou Y.  Formation of concentric multi-layer chitosan hydrogel loaded with isoniazid.  Journal of Controlled Release. 2011;152:45.

5. Li B*, Wang L, Guo J, Xu F, Wei D, Feng Y, et al.  Cell laden and patterned chitosan microgel for micro-scale tissue engineering.  Journal of Controlled Release. 2015;213:9.

6. Wang YL, Li BQ*, Zhou Y, Jia DC, Qu ZW, Yan JL.  Newgeneration of chitosan-(acrylic acid)-magnetite nanospheres: Synthesis,  characterization and cell viability test in vitro. Journal of Controlled  Release. 2011;152:245.

7. Gao YS, Li BQ*, Jia DC, Feng YJ, Wei DQ, Zhou Y.  Novel lamellar chitosan drug carrier for long-term sustained release:  Drug-loading combined with biomineralization. Journal of Controlled Release.  2013;172:87.

8. Wang YL, Li BQ*, Zhou Y, Han ZD, Feng YJ, Wei DQ. A  facile concentric-layered magnetic chitosan hydrogel with magnetic field remote  stimulated drug release. Journal of Controlled Release. 2013;172:90.

9. Li YH, Huang GY, Zhang XH, Li BQ, Chen YM, Lu TL, et  al. Magnetic Hydrogels and Their Potential Biomedical Applications. Advanced  Functional Materials. 2013;23:660-72.

10. Wang PF, Wang L, Li B, Lu TJ, Xu F. Controlled  cyclic drug release based on chemomechanical gels. Journal of Controlled  Release. 2015;213:33.

11. Li BQ*, Jia DC, Zhou Y, Hu QL, Cai W. In situ  hybridization to chitosan/magnetite nanocomposite induced by the magnetic field.  Journal of Magnetism and Magnetic Materials. 2006;306:223-7.

12. Wang YL, Li BQ*, Zhou Y, Jia DC. In Situ  Mineralization of Magnetite Nanoparticles in Chitosan Hydrogel. Nanoscale  Research Letters. 2009;4:1041-6.

13. Wang YL, Li BQ*, Zhou Y, Jia DC, Song Y.  CS-Fe(II,III) complex as precursor for magnetite nanocrystal. Polymers for  Advanced Technologies. 2011;22:1681-4.

14. Wang YL, Li BQ*, Xu F, Jia DC, Feng YJ, Zhou Y. In  Vitro Cell Uptake of Biocompatible Magnetite/Chitosan Nanoparticles with High  Magnetization: A Single-Step Synthesis Approach for In-Situ-Modified Magnetite  by Amino Groups of Chitosan. Journal of Biomaterials Science-Polymer Edition.  2012;23:843-60.

15. Li BQ*, Wang YL, Jia DC, Zhou Y, Cai W.  Mineralization of chitosan rods with concentric layered structure induced by  chitosan hydrogel. Biomedical Materials. 2009;4.

16. Li BQ*, Wang YL, Jia DC, Zhou Y. Gradient  Structural Bone-Like Apatite Induced by Chitosan Hydrogel via Ion Assembly.  Journal of Biomaterials Science-Polymer Edition. 2011;22:505-17.

17. Qu ZW, Yan JL, Li BQ(与第一作者同等贡献), Zhuang JP, Huang  YM. Improving bone marrow stromal cell attachment on chitosan/hydroxyapatite  scaffolds by an immobilized RGD peptide. Biomedical Materials. 2010;5.


专著章节

1 Biosensor based  on Chitosan nanocomposites, Baoqiang Li*, Yinfeng Chen, Feng Xu,,Advanced  Bioelectronics Materials, Edit by Ashutosh Tiwari, Hirak K.Patra, Anthony P. F.  Turner, Wiley-Scrivener Publishing ,ISBN: 978-1118998304, 536 pages, Sep 2015  

2 Chitosan: Drug Release and Bone Tissue Engineering,  Baoqiang Li*, Lei Wang, Xiaomei Geng, Yanjuan Huang, Daqing Wei, Dechang Jia,  Yujie Feng, Yu Zhou, Encyclopedia of Biomedical Polymers and Polymeric  Biomaterials, Edited by Munmaya K. Mishra, CRC Press,2015(DOI:  10.1081/E-EBPP-12005070)

3 Chitosan Hemostatic Dressing,Baoqiang Li*, Fan Meng,  Lei Wang, Shuqi Wang,Feng Xu,Lin Jing, Daqing, Wei, Yujie Feng, Dechang Jia, Yu  Zhou,CRC Press, New York, USA ISBN 9781439898796 (DOI: 10.1081/E-EBPP-12005168l)