李洪义，男，工学博士，山东菏泽人，北京工业大学材料学院教授。北京市首届“高创计划”青年拔尖人才和北京市“高层次人才”青年拔尖人才获得者。
教育经历：
2003/09 - 2006/07，清华大学，材料科学与工程，博士
2000/09 - 20030/7，北京工业大学，材料科学与工程，硕士
1996/09 - 2000/09，中南大学，材料科学与工程，学士
工作经历：
2017/06-至今，北京工业大学，材料学院，教授
2010/12 – 2017/06，北京工业大学，材料学院，副教授
2013/01 - 2014/01，麻省理工学院，核科学与工程系，访问
2006/07 - 2010/12，北京工业大学，材料学院，讲师
工作简介
自2003年以来，本人一直从事钛、铝等轻金属的表面的改性及其在能量转化与存储、生物相容性以及摩擦磨损等方面的研究，研究中同时自主设计与搭建了金属材料表面改性及性能评价平台。2013年入选北京市“青年拔尖人才”培养计划，2014年入选北京市“高创计划”青年拔尖人才，2016年入选了北京工业大学“青年百人”人才计划。2013年1月-2014年1月期间公派赴麻省理工学院进行访问研究1年，主要从事原位透射电镜观察一维纳米材料充放电过程中材料微观结构变化规律及其储锂机制。已在Nano Research、Nanoscale、Biomaterials、ACS Appl. Mater. Inter.等期刊上发表SCI收录论文80余篇，引用1000余次。主持国家自然科学基金2项，北京市自然科学基金重点项目在内的省部级以上课题8项；作为骨干人员，参与国家重点研发计划、863计划、北京市创新团队等项目10余项。
代表性论文
1) Li T, Wang N, ChenS, Lu R, Li HY*, Zhang ZT*. Antibacterialactivity and cytocompatibility of an implant coating consisting of TiO₂nanotubes combined with a GL13K antimicrobial peptide. International Journal ofNanomedicine, 2017, 12: 2995-3007.
2) Liu WW, GolshanNegar H, Deng XL, Hickey DJ, Zeimer K, LiHY, Webster TJ. Selenium nanoparticles incorporated into titaniananotubes inhibit bacterial growth and macrophage proliferation. Nanoscale,2016, 8: 15783-15794.
3) Wu JS, Wang JS, DuYC, Li HY, Jia XJ. Adsorptionmechanism and kinetics of azo dye chemicals on oxide nanotubes: a case studyusing porous CeO₂ nanotubes. Journal of Nanoparticle Research,18(7): 191, 2016.
4) Li ZF, Zheng GW,Wang JS*, Li HY*, Wu JS, Du YC. Refiningwaste hardmetals into tungsten oxide nanosheets via facile method. Journalof Nanoparticle Research, 18(4): 98, 2016.
5) Zhao JX*, Li Z, LiHQ, Ma SH, Li HY*. Electrochemical properties of nickle oxide nanofibersfabricated by electrospinning and annealing. Journal of Nanoscience andNanotechnology, 16: 7273-7277, 2016.
6) Lv LW, Liu YS,Zhang P, Zhang X, Liu JZ, Chen T, Su PL, LiHY*, Zhou YS*. The nanoscale geometry of TiO₂ nanotubesinfluences the osteogenic differentiation of human adipose-derived stem cellsby modulating H3K4 trimethylation. Biomaterials, 39: 193-205, 2015.
7) Ma YP, Zhang ZT*,Liu YR, Li HY*, Wang N, Liu WW, LiWJ, Jin LL, Chen S. Nanotubes functionalized with BMP2 knuckle peptide improvesthe osseointegration of titanium implants in rabbits. Journal of BiomedicalNanotechnology, 11, 236-244, 2015.
8) Su PL, Li HY^*, Wang JS^*,Wu JS, Zhao BX. Facile preparation of titanium dioxide nano-capsule arrays usedas photo-anode for dye sensitized solar cells, Applied Surface Science,2015, 347: 636-642.
9) Wu JS, Wang JS, DuYC, Li HY, Yang YL, Jia XJ.Chemically controlled growth of porous CeO₂ nanotubes for Cr(VI)photoreduction. Applied Catalysis B-Environmental, 2015, 174: 435-444.
10) Zhao BX, Wang JS^*,Li HY^*, Xu Y, Yu HJ, JiaXJ, Zhang XF, Hao YW. Solar-to-Electric performance enhancement by titianiumoxide nanoparticles coated with porous yttium oxide for dye-sensitized solarcells. ACS Sustainable Chemistry & Engineering, 2015, 3:1518-1525.
11) Zhao BX, Wang JS^*,Li HY^*, Wang H, Jia XJ,Su PL. The influence of yttium dopant on the properties of anatasenanoparticles and the performance of dye-sensitized solar cells . PhysicalChemistry Chemical Physics, 2015, 17: 14836-14842.
12) Liu WW, Su PL,Chen S, Wang N, Wang JS, Liu YR, Ma YP, LiHY, Zhang ZT, Webster TJ. Antibacterial and osteogenic stem celldifferentiation properties of photoinduced TiO₂nanoparticle-decorated TiO₂ nanotubes, Nanomedicine, 2015, 10:713-723.
13) Liu WW, Su PL,Gonzales A, Chen S, Wang N, Wang JS, LiHY*, Zhang ZT*, Webster TJ*. Optimizing stem cell functions and antibacterialproperties of TiO₂ nanotubes incorporated with ZnO nanoparticles:experiments and modeling. International Journal of Nanomedicine,2015, 10: 1997-2009.
14) Li HY, Wang JS*, Liu M, Wang H, Su PL,Wu JS, Li J*. A Nanoporous oxide interlayer makes better Pt catalyst onmetallic substrate: nanoflowers on nanotube bed. Nano Research, 7: 1007-1017, 2014.
15) Wang H, Li HY*, Wang JS, Wu JS, Li DS, Liu M.Nitrogen-doping TiO₂ nano-particles better TiO₂ nanotubearray photoanodes for dye sensitized solar cells. Electrochimica Acta,137:744-750, 2014.
16) Liu WW, Su PL,Chen S, Wang N, Ma YP, Liu YR, Wang JS, Zhang ZT*, Li HY*, Webster TJ*. The synthesis of TiO₂ nanotubeswith ZnO nanoparticles to possess antibacterial properties with no celltoxicity, Nanoscale, 6: 9050-9062, 2014.
17) LiDS, Li HY*, Wang JS, Wang H, Liu M,Li ZF. Designedtitanium dioxide one dimensional net structure: reusable adsorbent for removingpollutant. Nanoscience and Nanotechlogy Letters, 6, 892-897, 2014.
18) Wang JS, Li H, Li HY, Zou C, Wang H, LiDS. Mesoporous TiO₂ thin films exhibitingenhanced thermal stability and controllable pore size: preparation andphotocatalyzed destruction of cationic dyes. ACS Applied Materials andInterfaces,6: 1623-1631, 2014.
19) Liu BX, Wang JS, Wu JS, Li HY, Li ZF, Zhou ML, Zuo TY.Controlled fabrication of hierarchical WO₃ hydrates with excellentadsorption performance. Journalof Materials Chemistry A, 2: 1947-1954, 2014.
20) Wu JS, Wang JS, LiHY, Du YC, Huang KL, Liu BX. Designed synthesis of hermatite-basednanosorbents for dye removal. Journal of Materials Chemistry A, 1:9837-9847, 2013.
21) Li HY,Liu M, Wang H, Wu JS, Su PL, Li DS, Wang JS. Formation process of TiO₂ nanotubearrays prepared by anodic oxidation method. Journal of Nanoscience andNanotechnology, 13: 4110-4116, 2013.
22) Wang H, Li HY*,Wang JS*, Wu JS, Liu M. Influence of applied voltage on anodized TiO₂nanotube arrays and their performance on dye sensitized solar cells. Journalof Nanoscience and Nanotechnology, 13: 4183-4188, 2013.
23) Wang H,Li HY*, Wang JS*, Wu JS. High aspect-ratio transparent highly ordered titanium dioxide nanotube arrays and their performance in dye sensitized solarcells. Materials Letters, 80: 99-102, 2012.
24) WangN, Li HY*, Wang JS, Chen S, Ma YP, Zhang ZT*. Study on the anticorrosion,biocompatibility and osteoinductivity of tantalum decorated with Ttantalumoxide nanotube array films. ACS Applied Materials and Interfaces,4(9): 4516-4523, 2012.
25) Wang JS, Li H, LiHY, Zhou C, Wang H. Thermal stability and optimal photoinducedhydrophilicity of mesoporous TiO₂ thin films. Journal of Physical Chemistry C,116(17): 9517-9525, 2012.
26) WuJS, Wang JS, Li HY, Li ZF. Top-down chemical etching to complex Ag micro-structures. CrystEngComm, 14(13): 4335-4343, 2012.
27) Liu N, Li HY*,Wang H, Chen T, Wang JS, Chang L. Studies on the TiO₂ modifiedmicrochannels for microfluidic applications. Materials Letters, 89:247-250, 2012.
28) Li HY,Wang JS, Wang H, Liu M. Low temperature heat Treatment of anodic TiO₂nanotube array thin film and their photo-electrochemical properties. Nanoscienceand Nanotechlogy Letters, 4(5): 564-568, 2012.
29) Wang N, Li HY*,Lv WL, Li JH, Wang JS, Zhang ZT*, Li YR. Effects of TiO₂ nanotubeswith different diameters on gene expression and osseointegration of implants inminipigs. Biomaterials, 32: 6900-6911, 2011.
30) Li HY*,Wang JS*, Huang KL, Sun GS, Zhou ML. In-situ preparation of multilayer TiO₂ nanotube array thin films by anodic oxidation method. Materials Letters, 65:1188-1190, 2011.
授权专利
1)李洪义, 王金淑, 刘曼. 一种循环伏安电沉积制备纳米铂/二氧化钛纳米管电极的方法，中国,ZL0.8.
2)李洪义, 王金淑, 刘曼. 一种脉冲电沉积制备纳米铂/钯二氧化钛纳米管复合电极的方法, 中国,ZL9.5.
3)李洪义, 王金淑, 王鸿, 刘宁, 陈涛. 一种三维网络结构二氧化钛纳米管阵列的制备方法, 中国,ZL3.X.
4)王金淑, 李洪义, 孟祥龙, 一种脉冲电沉积制备纳米铂/二氧化钛纳米管电极的方法, 中国,ZL1.0.
5)李洪义, 王金淑, 王鸿. 一种二氧化钛纳米管与纳米棒同轴复合阵列的制备方法, 中国,ZL9.7.
6)李洪义, 王金淑, 李炟声, 王鸿, 刘曼. 一种污水处理用多孔铝网附载二氧化钛一维阵列的方法, 中国,ZL4.4.
7)李洪义, 王金淑, 苏鹏磊, 王菲, 王鸿. 2014, 一种柔性全固态阵列式钙钛矿太阳能电池的制备方法, 中国,ZL1.8
8)李洪义, 王金淑, 刘曼. 一种脉冲电沉积制备纳米铂/钌修饰二氧化钛纳米管电极的方法, 中国, ZL7.4.
9)李洪义, 王金淑, 苏鹏磊, 吴俊书, 王鸿, 王菲. 一种二氧化钛纳米胶囊阵列的制备方法, 中国, ZL3.6
10)李洪义, 王金淑, 苏鹏磊, 王菲. 一种脉冲阳极氧化制备高度有序二氧化钛纳米管阵列薄膜制备的方法, 中国, ZL3.0
联系方式：lhy06@bjut.edu.cn