欢迎感兴趣的本科生、硕士、博士研究生加盟合作从事相关科研工作!
讲授课程:
《理论力学》 《大学物理实验》
《材料科学基础》 《纳米材料及应用》
《薄膜物理与技术》
科研方向:
从2004年开始一直从事纳米结构的制备及物性方面的研究工作,并致力于探索其在气敏、光催化、信息存储及太阳能电池等领域的应用。已在国际学术刊物上发表被SCI收录的论文45篇,共被SCI他引1204次;其中发表第一作者/通讯作者SCI文章24篇,分别发表在Advanced Functional Materials, Journal of Materials Chemistry, Sensors & Actuators B, Journal of Physical Chemistry C, Nanotechnology, Applied Physics Letters, Journal of Physical Chemistry B等国际著名刊物上。目前感兴趣的研究方向如下:
(1) 纳米半导体材料的制备,表征,改性及物理性能;
(2) 气敏/湿敏传感器研究;
(3) 相变及阻变存储材料研究;
(4) 低维纳米材料的应用研究:如光催化,太阳能电池等。
承担项目:
(1)国家自然科学基金面上项目,(No.11574189,2016.01-2019.12), 84万,主持.
(2)国家自然科学基金青年项目,(No.11105047,2012.01-2014.12), 25万,主持.
(3)第49批教育部留学回国人员科研启动基金,(2015.01-2016.12), 3万,主持.
(4)陕西省青年科技新星项目,(2016KJXX-15,2016.05-2018.05), 10万,主持.
(5)中央高校个人特别支持项目,(No. GK2016020062016.03-2018.12), 20万,主持.
(6)中央高校基金团队项目,(No.GK201501004,2015.01-2017.12), 40万,排名第2.
(7)国家自然科学基金青年项目,(No.21402045,2015.01-2017.12), 25万,排名第2.
(8)国家自然科学基金青年项目,(No.51203045,2013.01-2015.12), 25万,排名第2.
(9)国家自然科学基金青年项目,(No.51102087,2012.01-2014.12), 25万,排名第3.
(10)国家自然科学基金青年项目,(No.51002049,2011.01-2013.12), 20万,排名第3.
荣誉奖励:
2015年度 陕西省青年科技新星荣誉称号 (省部级)
科研论文:
[45] Chang Liu, Hongbing Lu*, et al., Crystal facet-dependent p-type and n-type sensing responses of TiO2 nanocrystals, Sensors & Actuators B, 2018 (1区,Accepted)
[44] Jinniu Zhang, Hongbing Lu*, et al., Fabrication of conductive graphene oxide-WO3 composite nanofibers by electrospinning and their enhanced acetone gas sensing properties, Sensors & Actuators B, 2018 (1区,Accepted)
[43] Chao Yan, Hongbing Lu*, et al., Improved NO2 sensing properties at low temperature using reduced graphene oxide nanosheet-In2O3 heterojunction nanofibers, Journal of Alloys and Compounds, 714 (2018) 908–917. (2区)
[42] Jinniu Zhang, Tianhua Chen, Hongbing Lu*, Zhibo Yang, Feng Yin, Jianzhi Gao, Qianru Liu, Yafang Tu, Hierarchical Bi2WO6 architectures decorated with Pd nanoparticles for enhanced visible-light-driven photocatalytic activities, Applied Surface Science, 404 (2017) 282–290. (2区)
[41] Chang Liu, Hongbing Lu*, Jinniu Zhang, Zhibo Yang, Gangqiang Zhu, Feng Yin, Jianzhi Gao, Chujun Chen, Xia Xin, Abnormal p-type sensing response of TiO2 nanosheets with exposed {001} facets, Journal of Alloys and Compounds 705 (2017) 112–117. (2区)
[40] Chao Yan, Hongbing Lu*, Jianzhi Gao*, Gangqiang Zhu, Feng Yin, Zhibo Yang, Qianru Liu, Gang Li, Synthesis of porous NiO-In2O3 composite nanofibers by electrospinning and their highly enhanced gas sensing properties, Journal of Alloys and Compounds, 699 (2017) 567–574. (2区)
[39] Tianhua Chen, Hongbing Lu*, Jinniu Zhang, Jianzhi Gao, Feng Yin, Zhibo Yang, Qianru Liu and Xuewei Zhang, Three-dimensionally Hierarchical Bi2WO6 Architectures with Enhanced Photocatalytic Activity, NANO, Vol. 11, No. 12 (2016) 1650135.
[38] Jinniu Zhang, Tianhua Chen, Jiahuan Yu, Chang Liu, Zhibo Yang, Hongbing Lu*, Feng Yin*, Jianzhi Gao, Qianru Liu, Xuewei Zhang, Yafang Tu, Enhanced photocatalytic activity of flowerlike CuO–ZnO nanocomposites synthesized by one-step hydrothermal method, Journal of Materials Science: Materials in Electronics, 27 (2016) 10667–10672.
[37] Yongbao Liu, Gangqiang Zhu*, Jianzhi Gao*, Mirabbos Hojamberdiev, Hongbing Lu, Runliang Zhu*, Xiumei Wei, Peng Liu. A novel CeO2/Bi4Ti3O12 composite heterojunction structure with an enhanced photocatalytic activity for bisphenol A. Journal of Alloys and Compounds, 2016, 688:487-496.
[36] T. Yuan, H. B. Lu*, B. H. Dong, L. Zhao, L. Wan, S. M. Wang, Z. X. Xu, " Single-crystalline rutile TiO2 nanorod arrays with high surface area for enhanced conversion efficiency in dye-sensitized solar cells ", Journal of Materials Science: Materials in Electronics, 26 (2015) 1332–1337.
[35] H. B. Lu, E. Thelander, J. W. Gerlach, U. Decker, B. P. Zhu, B. Rauschenbach, “Single pulse laser-induced phase transitions of PLD-deposited Ge2Sb2Te5 films”, Advanced Functional Materials, 23 (2013) 3621.
[34] H. B. Lu, S. M. Wang, L. Zhao, J. C. Li, B. H. Dong, Z. X. Xu, “Hierarchical ZnO microarchitectures assembled by ultrathin nanosheets: hydrothermal synthesis and enhanced photocatalytic activity”, Journal of Materials Chemistry, 21 (2011) 4228, “被编辑选为Hot Article: http://blogs.rsc.org/jm/”
[33] H. B. Lu, L. Liao, H. Li, Y. Tian, J. C. Li, D. F. Wang and B. P. Zhu, “Zn-assisted synthesis and photoluminescence properties of MgO nanotubes”, Journal of Physical Chemistry C, 111 (2007) 10273.
[32] H. B. Lu, H. Li, L. Liao, Y. Tian, M. Shuai, J. C. Li, M. F. Hu, Q. Fu, B. P. Zhu, “Low-temperature synthesis and photocatalytic properties of ZnO nanotubes by thermal oxidation of Zn nanowires”,Nanotechnology, 19 (2008) 045605.
[31] H. B. Lu, E. Thelander, J. W. Gerlach, D. Hirsch, U. Decker, B. Rauschenbach, “Ge2Sb2Te5 phase-change films on polyimide substrates by pulsed laser deposition”, Applied Physics Letters, 101 (2012) 031905.
[30] H. B. Lu, L. Liao, J. C. Li, M. Shuai, Y. L. Liu, “Hematite nanochain networks: Simple synthesis, magnetic properties, and surface wettability”,Applied Physics Letters, 92 (2008) 093102. “Selected in Virtual J. Nanoscale Science & Technology, March 17, 2008 issue".
[29] H. B. Lu, L. Liao, J. C. Li, D. F. Wang, H. He, Q. Fu, L. Xu and Yu Tian, “High surface-to-volume ratio ZnO microberets: low temperature synthesis, characterization, and photoluminescence”, Journal of Physical Chemistry B, 110 (2006) 23211.
[28] H. B. Lu, L. Liao, H. Li, D. F. Wang, Y. Tian, J. C. Li, Q. Fu, B. P. Zhu, Y. Wu, “Hollow MgO Nanotube Arrays by Using ZnO Nanorods as Templates”, European Journal of Inorganic Chemistry, 17 (2008) 2727.
[27] H. B. Lu, S. M. Wang, L. Zhao, B. H. Dong, Z. X. Xu, J. C. Li, “Surfactant-assisted hydrothermal synthesis of Bi2O3 nano/microstructures with tunable size”, RSC Advances, 2 (2012) 3374.
[26] H. B. Lu, S. M. Wang, B. H. Dong, Z. X. Xu, L. Zhao, “one-step hydrothermal formation of Bi2O3 nanourchins with radially ultrathin nanotubes”, Journal of the Physical Society of Japan, 79 (2010) 094802.
[25] H. B. Lu, L. Liao, H. Li, Y. Tian, D. F. Wang, J. C. Li, Q. Fu, B. P. Zhu, Y. Wu, “Fabrication of CdO nanotubes via simple thermal evaporation”, Materials Letters, 62 (2008) 3928.
[24] H. B. Lu, L. Liao, H. Li, Y. Tian, D. F. Wang, J. C. Li, B. P Zhu, Y. Wu, “MgO nanobelts using a reactive and auto-removed ZnO nanobelt template”, Solid State Communications, 147 (2008) 57.
[23] H. B. Lu, L. Liao, H. Li, D. F. Wang, J. C. Li, Q. Fu, B. P. Zhu, Y. Wu, “Well-aligned ZnO microprism arrays with umbrella-like tips: low temperature preparation, structure and UV photoluminescence improvement”, Physica E- Low-dimensional Systems & Nanostructures, 40 (2008) 2931.
[22] H. B. Lu, B. H. Dong, S. M. Wang, L. Zhao, Z. X. Xu, L. Wan, J. C. Li, “Impact of annealing on morphology and thermal stability of Bi2O3 nanotube-based microarchitectures”, Physica Status Solidi A-Applications and Materials Science, 209 (2012) 2157.
[21] H. B. Lu, B. H. Dong, L. Zhao, S. M. Wang, Z. X. Xu, J. C. Li, “ZnO nanosheet-based hierarchical microarchitectures for enhanced conversion efficiency in dye-sensitized solar cells”, Journal of Materials Science-Materials in Electronics, 23 (2012) 1905.
[20] L. Liao, H. B. Lu, J. C. Li, H. He, D. F. Wang, D. J. Fu, C. Liu and W. F. Zhang, “Size Dependence of Gas Sensitivity of ZnO Nanorods”, Journal of Physical Chemistry C, 111 (2007) 1900.
[19] L. Liao, H. B. Lu, M. Shuai, J. C. Li, Y. L. Liu, C. Liu, Z. X. Shen, T. Yu, “A novel gas sensor based on field ionization from ZnO nanowires: moderate working voltage and high stability”, Nanotechnology, 19 (2008) 175501.
[18] L. Liao, H. B. Lu, J. C. Li, C. Liu, D. J. Fu, Y. L. Liu, “The sensitivity of gas sensor based on single ZnO nanowire modulated by helium ion radiation”, Applied Physics Letters, 91 (2007) 173110. “Selected in Virtual J. Nanoscale Science & Technology, number 5, 2007 issue".
[17] Y. Tian, H. B. Lu, D. F. Wang, J. C. Li, M. Shuai, Q. Fu, “Synthesis of Zinc oxide hollow spherical structure via precursor-template and formation mechanism”, Journal of the Physical Society of Japan, 77 (2008) 074603.
[16] L. Liao, H. B. Lu, L. Zhang, M. Shuai, J. C. Li, C. Liu, D. J. Fu, “Effect of ferromagnetic properties in Al doped ZnCoO nanowires synthesized by water-assistance reactive vapor desposition”, Journal of Applied Physics , 102 (2007) 114307.
[15] D. F. Wang, H. B. Lu, J. C. Li, Y. Wu, Y. Tian, Y. P. Lee, “Effects of low-energy hydrogen ion implantation on optical properties of ZnO nanowires”, Materials Research Bulletin, 44 (2009) 41.
[14] Y. Tian, H. B. Lu, L. Liao, J. C. Li and Q. Fu, “Synthesis and evolution of hollow ZnO microspheres assisted by Zn powder precursor”, Solid State Communications, 149 (2009) 456.
[13] Y. Tian, H. B. Lu, L. Liao, J. C. Li, Y Wu and Q. Fu, “Controlled growth surface morphology of ZnO hollow microspheres by growth temperature”, Physica E- Low-dimensional Systems & Nanostructures, 41 (2009) 729.
[12] Y. Tian, H. B. Lu, L. Liao, J. C. Li, Y Wu and Q. Fu, “Synthesis, characterization and photoluminescence properties of ZnO hexagonal pyramids by the thermal evaporation method” Physica E- Low-dimensional Systems & Nanostructures, 43 (2010) 410.
[11] Y. Tian, H. B. Lu, Y. Wu, J. C. Li, “Synthesis and characterization of three-dimensional dendritic ZnO nanorods”, Materials Science and Technology, 26 (2010) 1248.
[10] L. Liao, W. F .Zhang, H. B. Lu, J. C. Li, D. F. Wang, C. Liu, and D. J. Fu, “Investigation of the temperature dependence of the field emission of ZnO nanorods”, Nanotechnology, 18 (2007) 225703.
[9] M. Shuai, L. Liao, H. B. Lu, L. Zhang, J. C. Li, D. J. Fu, “Room-temperature ferromagnetism in Cu+ implanted ZnO nanowires”, Journal of Physics D-Applied Physics, 41 (2008) 135010.
[8] H. J. Wang, C. W. Zou, B. Yang, H. B. Lu, C. X. Tian, H. J. Yang, M. Li, C. S. Liu, D. J. Fu and J. R. Liu, “Electrodeposition of tubular-rod structure gold nanowires using nanoporous anodic alumina oxide as template”, Electrochemistry Communications, 11 (2009) 2019-2022.
[7] L. Liao, H. X. Mai, Q. Yuan, H. B. Lu, J. C. Li, C. Liu, C. H. Yan, Z. X. Shen, T. Yu, “Single CeO2 nanowire gas sensor supported with Pt nanocrystals: gas sensitivity, surface bond states, and chemical mechanism”, Journal of Physical Chemistry C, 112 (2008) 9061.
[6] H. Y. Xiong, X. H. Zhang, B. H. Dong, H. B. Lu, L. Zhao, L. Wan, G. T. Dai, S. M. Wang, “The preparation of carbon dots/ionic liquids-based electrolytes and their applications in quasi-solid-state dye-sensitized solar cells”, Electrochimica Acta, 88 (2013) 100.
[5] H. Li, J. P. Sang, C. Liu, H. B. Lu, J. C. Cao, “Microstructural study of MBE-grown ZnO film on GaN/sapphire (0001) substrate”, Central European Journal of Physics, 6 (2008) 638.
[4] J. Li, L. Zhao, S. M. Wang, J. H. Hu, B. H. Dong, H. B. Lu, L. Wan, P. Wang, “Great improvement of photoelectric property from co-sensitization of TiO2 electrodes with CdS quantum dots and dye N719 indye-sensitized solar cells”, Materials Research Bulletin, 48 (2013) 2566.
[3] G. T. Dai, L. Zhao, S. M. Wang, J. H. Hu, B. H. Dong, H. B. Lu, J. Li, “Double-layer composite film based on sponge-like TiO2 and P25 as photoelectrode for enhanced efficiency in dye-sensitized solar cells”, Journal of Alloys and Compounds, 539 (2012) 264.
[2] L. Zhao, J. Li, Y. Shi, S. M. Wang, J. H. Hu, B. H. Dong, H. B. Lu, P. Wang, “Double light-scattering layer film based on TiO2 hollow spheres and TiO2 nanosheets: Improved efficiency in dye-sensitized solar cells”, Journal of Alloys and Compounds, 575 (2013) 168.
[1] G. T. Dai, L. Zhao, J. Li, L. Wan, F. Hu, Z. X. Xu, B. H. Dong, H. B. Lu, S. M. Wang, J. G. Yu, “A novel photoanode architecture of dye-sensitized solar cells based on TiO2 hollow sphere/nanorod array double-layer film”, Journal of Colloid and Interface Science, 365 (2012) 46.