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个人信息

简介: 是
 张喜田,1964年4月生人,博士,二级教授,博导,龙江学者特聘教授,黑龙江省杰青,黑龙江省科学技术奖(自然科学类)一等奖获得者,黑龙江省科技创新团队首席专家。现任哈尔滨师范大学常委、副校长,教育部高等学校物理门类专业教学指导委员会委员,黑龙江省领军人才梯队“535工程”凝聚态物理学科后备带头人。曾荣获黑龙江省优秀硕士生导师,黑龙江省模范教师,黑龙江省劳动模范,黑龙江省高校师德先进个人等荣誉称号。

教育及工作经历:
1987年毕业于吉林大学电子科学系半导体物理与器件专业(获得学士学位);
1989年毕业于中科院长春物理所凝聚态物理专业,提前毕业(获得硕士学位);
1989年哈尔滨师范大学物理系任教;
2002年毕业于中国科学院长春光学精密机械与物理研究所凝聚态物理专业,提前毕业(获得博士学位);
2002.11至2003.11 香港中文大学博士后研究员;
2004.09至2005.09 香港中文大学博士后研究员;
2005.09至2007.09 香港中文大学研究助理教授;
2008年荣获黑龙江省杰出青年基金项目资助;
2009年聘为哈尔滨师范大学“龙江学者”特聘教授;
2010年获黑龙江省模范教师荣誉称号及黑龙江省研究生优秀导师荣誉称号;
2011年荣获黑龙江省优秀共产党党员荣誉称号;
2012年荣获黑龙江省劳动模范和黑龙江省高校师德先进个人;
2013年黑龙江省科技创新团队首席专家;
2014年荣获2013-2014年度黑龙江省高校教师年度人物奖。
2014年获得了黑龙江省优秀教师荣誉称号

研究兴趣:
 1.能源储存材料的科学设计、合成及储能器件(超级电容器和电池);
 2.复合半导体纳米材料的科学设计、可控合成及催化性质。

招生方向:
 1.锂硫电池关键性电极材料设计、可控合成及界面电化学性质研究
 

主持或承担科研项目:

  1. 国家自然科学基金(2021.01-2024.12,主持,59万)(项目编号:52072099) 题目:基于Nafion/LixY(Y:F、N、O、P)复合材料构造Li-S电池中锂负极人工SEI膜及其稳定性的研究(在研)
  2. 国家自然科学基金(2018.01-2021.12,主持,60万)(项目编号:51772069) 题目:基于3D MXene 纳米结构构筑Li-S电池的正极材料及其电化学性能的研究(在研)
  3. 2015.1-2018.12主持国家自然科学基金(51472066):过渡金属碳化物电极材料的设计、可控合成、Li+离子嵌入及其电化学储能特性研究。
  4. 2012.01-2015.12主持国家自然科学基金(51172058):一维InGaO3(ZnO)m异质超晶格纳米结构的可控合成及其场效应晶体管。
  5. 2008.01-2010.12主持国家自然科学基金(60776010):复合氧化锌超晶格结构纳米线阵列的生长和电学性质。
代表性论文:
  1. J. Wen, X. T. Zhang*, and H. Gao, Effect of the slab thickness on the crystal and electronic structures of In2O3(ZnO)m revealed by first-principles calculations, J. Solid State Chem. 222, 25 (2015).
  2. X. Y. Cao, X. Xing, N. Zhang, H. Gao, M. Y. Zhang*, Y. C. Shang, and X. T. Zhang*, Quantitative investigation on the effect of hydrogenation on the performance of MnO2/H-TiO2 composite electrodes for supercapacitors, J. Mater. Chem. A 3, 3785 (2015).
  3. L. L. Wu, X. T. Zhang*, Facile fabrication of ZnO:S/ZnO hetero-nanostructures and their electronic structure investigation by electron energy loss spectroscopy, CrystEngComm. 17, 2250 (2015).
  4. J. Y. Dong, X. T. Zhang*, The preparation and electrochemical characterization of urchin-like NiCo2O4 nanostructures, Appl. Surf. Sci. 332, 247-252(2015).
  5. M. Y. Zhang, Y. Liu, L. Li, H. Gao, and X. T. Zhang*, BiOCl nanosheet/Bi4Ti3O12 nanofiber heterostructures with enhanced photocatalytic activity, Catal. Commun., 58, 122 (2015).
  6. H. X. Chuo, H. Gao, Q. Yang, N. Zhang, W. B. Bu, and X. T. Zhang*, Rationally designed hierarchical ZnCo2O4/Ni(OH)2 nanostructures for high-performance pseudocapacitor electrodes,J. Mater. Chem. A, 2, 20462 (2014).
  7. Y. Liu, M. Y. Zhang, L. Li, and X. T. Zhang*, One-dimensional visible-light-driven bifunctional photocatalysts based on Bi4Ti3O12 nanofiber frameworks and Bi2XO6 (X=Mo, W) nanosheets, Appl. Catal. B: Environmental, 160-161, 757 (2014).
  8. L. Li, M. Y. Zhang, Y. Liu, and X. T. Zhang*, Hierarchical assembly of BiOCl nanosheets onto bicrystlline TiO2 nanofiber: enhanced photocatalytic activity based on photoinduced interfacial charge transfer, J. Colloid Interface Sci., 435, 26 (2014).
  9. H. X. Chuo, T. Y. Wang, and W. G. Zhang*, Optical properties of ZnSxSe1-x alloy nanostructures and their photodetectors, J. Alloys Compd., 606, 231 (2014).
  10. Q. Yang, X. T. Zhang*, Y. Gao, H. Gao, X. C. Liu, H. Liu, K. W. Wong, and W. M. Lau, Rationally designed hierarchical MnO2-shell/ZnO-nanowire/carbon-fabric for high-performance supercapacitor electrodes, J. Power Sources, 272, 654 (2014).
  11. L. L. Wu, H. D. Zang, Y. C. Hsiao, X. T. Zhang, and B. Hu, Origin of the fill factor loss in bulk-heterojunction organic solar cells, Appl. Phys. Lett., 104, 153903 (2014).
  12. T. Y. Wang, X. T. Zhang*, J. Wen, T. T. Chen, X. Z. Ma, and H. Gao, Diameter-dependent luminescence properties of ZnO wires by mapping, J. Phys. D, 47, 175304 (2014).
  13. W. Chen, N. Zhang, M. Y. Zhang, X. T. Zhang*, H. Gao, and J. Wen, Controllable growth of ZnO-ZnSe heterostructures for visible-light photocatalysis, CrystEngComm., 16, 1201 (2014).
  14. J. Wen, X. T. Zhang*, H. Gao, and M. J. Wang, Current-voltage characteristics of the semiconductor nanowires under the metal-semiconductor-metal structure, J. Appl. Phys., 114, 223713 (2013)。
  15. X. T. Zhang*, M. L. Chen, J. Wen, L. L. Wu, H. Gao, and D. Zhang, Side by side ZnO/ZnS hetero-junction nanocrystal arrays with superior field emission property,CrystEngComm. 15, 1908 (2013).
  16. Q. Gao, J. Wen, X. Liu, L. L. Wu, H. Gao, and X. T. Zhang*, Routes to Probe Strain in “ZnO/ZnS Superlattice” Nanostructures by X-Ray Diffraction, J. Phys. Chem. C 117, 14247 (2013).
  17. P. Wang, X. T. Zhang*, J. Wen, L. L. Wu, H. Gao, E. Zhang, and G. Q. Miao, Synthesis and field-emission properties of novel hierarchical ZnO hexagonal towers, J. Alloys Compd. 533, 88 (2012).
  18. J. Wen, L. L. Wu, and X. T. Zhang*, A unique arrangement of atoms for the homologous compounds InMO3(ZnO)(m) (M = Al, Fe, Ga, and In), J. Appl. Phys. 111, 113716 (2012).
  19. L. L. Wu, Q. Li, X. T. Zhang*, T. Y. Zhai, Y. Bando and D. Golberg, Enhanced field emission performanece of Ga-doped In2O3(ZnO)3 superlattice nanobelts, J. Phys. Chem. C 115, 24564 (2011).
  20. Y. M. Xu, L. Shi, X. T. Zhang, K. W. Wong and Q. Li,The electron beam irradiation damage on nanomaterials synthesized by hydrothermal and thermal evaporation methods—An example of ZnS nanostructures, Micron 42, 290 (2011).
  21. J. Liu, L. L. Xu, B. Wei, W. Lu, H. Gao and X. T. Zhang*, One-step hydrothermal synthesis and optical properties of aluminium doped ZnO hexagonal nanoplates on a zinc substrate, CrystEngComm. 13, 1283 (2011).
  22. L. L. Wu, F. W. Liu and X. T. Zhang*, Group III element-doped ZnO twinning nanostructures, CrystEngComm 13, 4251 (2011).
  23. W. Tang, D. L. Huang, L. L. Wu, C. Z. Zhao, L. L. Xu, H. Gao and X. T. Zhang*, Surface plasmon enhanced ultraviolet emission and observation of random lasing from self-assembly Zn/ZnO composite nanowires, CrystEngComm 13, 2336 (2011).
  24. J. Y. Zhang, Y. Lang, Z. Q. Chu, X. Liu, L. L. Wu and X. T. Zhang*, Synthesis and transport properties of Si-doped In2O3(ZnO)3 superlattice nanobelts, CrystEngComm. 13, 3569 (2011).
  25. B. J. Niu, L. L. Wu, W. Tang, X. T. Zhang* and Q. G. Meng, Enhancement of near-band edge emission of Au/ZnO composite nanobelts by surface plasmon resonance, CrystEngComm 13, 3678 (2011).
  26. X. Liu, D. L. Huang, L. L. Wu, X. T. Zhang*, and W. G. Zhang, Novel photoluminescence properties of InAlO3(ZnO)m superlattice nanowires, Chin. Phys. B 20, 078101 (2011).
  27. D. L. Huang, L. L. Wu, and X. T. Zhang*,Size-dependent InAlO3(ZnO)m nanowires with a perfect superlattice structure, J. Phys. Chem. C 114, 11783 (2010).
  28. X. L. Xu, A. C. Irvine, Y. Yang, X. T. Zhang*, D. A. Williams, Coulomb oscillations of indium-doped ZnO nanowire transistors in a magnetic field, Phys. Rev. B 82, 195309 (2010).
  29. X. L. Xu, F. S. F. Brossard, D. A. Williams, D. P. Collins, M. J. Holmes, R. A. Taylor, and X. T. Zhang*, Cavity modes of tapered ZnO nanowires, New  J. Phys. 12, 083052 (2010).
  30. B. J. Niu, L. L. Wu, and X. T. Zhang*, Low-temperature synthesis and characterization of unique hierarchical In2O3(ZnO)10 superlattice nanostructures”, CrystEngComm. 12,3305 (2010).
  31. L. L. Wu, F. W. Liu, Z. Q. Chu, Y. Liang, H. Y. Xu, H. Q. Lu, X. T. Zhang*, Q. Li, and S. K. Hark, High-yield synthesis of In2-xGaxO3(ZnO)3 nanobelts with a planar superlattice structure, CrystEngComm 12, 2047 (2010).
  32. L. L. Wu, Y. Liang, F. W. Liu, H. Q. Lu, H. Y. Xu, X. T. Zhang*, and S. K. Hark, Preparation of ZnO/In2O3(ZnO)n heterostructure nanobelts, CrystEngComm 12, 4152 (2010).
  33. H. Q. Lu, L. L. Wu, E. Zhang, and X. T. Zhang*, Formation and photoluminescence of one-dimensional SiOx dot array–ZnO nanobelt heterostructure, CrystEngComm 12, 85 (2010).
  34. Z. M. Li, H. Gao, L. L. Wu, and X. T. Zhang*, Observation of the First Excited State of A-Exciton in ZnO Nanocombs, J. Nanosci.Nanotechnol.10, 1891 (2010)
  35. L. L. Wu, Z. G. Gao, E. Zhang, H. Gao, H. Li, X. T. Zhang*, Synthesis and optical properties of N–In codoped ZnO nanobelts, J. Lumin. 130, 334 (2010).
  36. X. T. Zhang*, H. Q. Lu, H. Gao, X. J. Wang, H. Y. Xu, Q. Li, and S. K. Hark, Crystal Structure of In2O3(ZnO) m Superlattice Wires and Their Photoluminescence Properties, Crystal Growth & Design 9, 364-367 (2009).
  37. X. L. Xu, F. S. F. Brossard, D. A. Williams, D. P. Collins, M. J. Holmes, R. A. Taylor, and X. T. Zhang*, Mapping cavity modes of ZnO nanobelts, Appl. Phys. Lett. 94, 321103-5 (2009).
  38. H. Y. Xu, Z. Liu, Y. Liang, Y. Y. Rao, X. T. Zhang, and S. K. Hark, Structure and photoluminescence of wurtzite/zinc-blende heterostructure GaN nanorods, Appl. Phys. Lett. 95, 133108-20 (2009).
  39. L. L. Wu, X. T. Zhang*, Y. Liang, and H. Y. Xu, Synthesis of In-doped ZnGa2O4 nanobelts and its enhanced cathodoluminescence, J. Alloy Compd. 468, 452-4 (2009).
  40. Z. Liu, X. T. Zhang, and S. K. Hark, Aligned growth of ZnCdSe nano-arrowheads, Crystal growth and Design 9, 803-6 (2009).
  41. G. Z. Wang, S. M. Selbach, Y. D.Yu, X. T. Zhang, T. Grandea and MA. Einarsrud,, Hydrothermal synthesis and characterization of KNbO3 nanorods, CrystEngComm. 11, 1958 (2009).
  42. L. L. Wu, X. T. Zhang*, Z. F. Wang, Y. Liang, and  H. Y. Xu, Synthesis and optical properties of ZnO nanowires with a modulated structure, J. Phys. D 41, 195406 (2008).
  43. H. Y. Xu, Y. Liang, Z. Liu, X. T. Zhang, and S. K. Hark, Synthesis and optical properties of tetrapod-like ZnSSe alloy nanostructures, Adv. Mater. 20, 3294 (2008).
  44. Z. Liu, X. T. Zhang, and S. K. Hark, Quadra-twin model for growth of nanotetrapods and related nanostructures, J. Phys. Chem. C 112, 8912 (2008).
  45. X. T. Zhang, Z. Liu, Z. Zheng, and S. K. Hark, Controlled growth of highly aligned amorphous SiOx sunflower-like morphology, J. Mater. Res. 23, 1667 (2008).
  46. X. T. Zhang, Y. Y. Rao, Y. Liang, R. Deng, Z. Liu, S. K. Hark, Y .k. Yuen and S. P. Wong, Synthesis of octahedral ZnGa2O4 particles and their field-emission properties, J. Phys. D 41, 095104 (2008).
  47. X. T. Zhang, Z. Liu and S. K. Hark, Synthesis and cathodoluminescence of beta-Ga2O3 nanowires with holes, J. Nanosci. Nanotechnol. 8, 1284 (2008).
  48. R. Deng, X. T. Zhang*, Effect of Sn concentration on structural and optical properties of zinc oxide nanobelts, J. Lumin. 128, 1442 (2008).
  49. C. Z. Zhang, H. Gao, D.Zhang, X. T. Zhang*, Local Homoepitaxial Growth and Optical Properties of ZnO Polar Nanoleaves, Chin. Phys. Lett. 25, 302 (2008)
  50. Z. Zheng, A. Liu, S. Wang, B.J. Huang, K.W. Wong, X. T. Zhang, S. K. Hark and W. M. Lau, Growth of highly oriented (110) -CuI film with sharp exciton band, J. Mater. Chem. 18, 852 (2008).
  51. H. Gao, H. Ji, X. T. Zhang*, H. Q. Lu, and Y. Liang, Indium-doped ZnO nanospirals synthesized by thermal evaporation, J. Vac. Sci. Techonol. B 26, 585 (2008).
  52. X. H. Li, C. L. Shao, Y. C. Liu, X. T. Zhang, S. K. Hark, Preparation, structure and photoluminescence properties of SiO2/ZnO nanocables via electrospinning and vapor transport deposition, Mater. Lett. 62, 2088 (2008).
  53. H. W. Song, H. Q. Yu, G. H. Pan, X. Bai, B. Dong, X. T. Zhang, and S. K. Hark, Electrospinning Preparation, Structure, and Photoluminescence Properties of YBO3:Eu3+ Nanotubes and Nanowires, Chem. Mater.20, 4762 (2008).

科研获奖:

  1. 黑龙江省科学技术奖一等奖:低维半导体纳米材料的设计与可控合成,2014年(第一获奖人);
  2. 黑龙江省高校科学技术奖一等奖:半导体纳米材料的可控制备与物理性能研究,2012年第一获奖人);
  3. 黑龙江自然科学技术奖二等奖:低维及新型纳米结构半导体材料的控制合成和物性研究,2006年(第一获奖人);
  4. 黑龙江省自然科学技术奖三等奖:宽带半导体纳米材料及其材料超结构的物性研究,2005年(第一获奖人);
  5. 黑龙江省第七届青年科技奖. 2006年(独立获奖)。