头像

张心正 教授

招生专业: 光学,光子学与光子技术

电话:

邮箱: zxz@nankai.edu.cn

办公地点: 伯苓楼A307

个人资料

  • 性别:
  • 部门: 伟德BETVLCTOR1946
  • 联系电话:
  • 通讯地址:
  • 职称: 教授
  • 电子邮箱: zxz@nankai.edu.cn
  • 办公地址: 伯苓楼A307

教育经历

_ _ ★ 1996.06 伟德bv1946官网物理系 理学学士  
_ _ ★ 2001.06 伟德BETVLCTOR1946 理学博士

工作经历

_ _ ★ 2001.07 - 2003.11 伟德BETVLCTOR1946 讲师
_ _ ★ 2003.12 - 2008.12 伟德BETVLCTOR1946 副教授
_ _ ★ 2004.04 - 2005.03 美国南卡罗来纳大学 博士后
_ _ ★ 2005.04 - 2006.08 德国明斯特大学 洪堡学者
_ _ ★ 2008.12 - 现在 伟德BETVLCTOR1946 教授

个人简介

_ _ 2001年获伟德bv1946官网理学博士学位。2004~2006年分别在美国南卡大学和德国明斯特大学(洪堡学者)从事博士后研究。2008年入选教育部“新世纪优秀人才支持计划”,2013年入选“伟德bv1946官网百名青年学科带头人培养计划”。是Springer Nature, APS, ACS, AIP, Optica等出版社学术期刊审稿人,《激光技术》期刊编委,天津市光学学会常务理事,天津市激光技术学会理事。
_ _ 主要从事弱光非线性光物理、光调控以及超快光子学方面的研究,在国内外重要学术刊物上发表论文百余篇,他引两千余次,授权发明专利10项(含美国专利1项,欧洲专利1项)。主持和完成的研究项目有科技部纳米重大计划项目课题、国家国际科技合作专项项目、国家自然科学基金面上项目等。学位论文入选天津市2003年优秀博士论文。承担本科生《大学物理学基础II》和研究生《纳米光子学》教学, 2010年获捷成奖教金。

研究方向

☆ 液晶光子学

☆ 纳米光子学

☆ 聚合物纳米复合材料研究

☆ 凝聚态体系中的超快动力学研究


研究成果

 

  1. Thermally tunable anti-ambipolar heterojunction devices, Phys. Chem. Chem. Phys. accepted

    https://doi.org/10.1039/d4cp02937b

  2. Bulk photovoltaic effect in ferroelectric nematic liquid crystals, Opt. Lett. 49(16) 4662 (2024)

    https://doi.org/10.1364/OL.527568

  3. Electro-Optic Response of Polymer-Stabilized Cholesteric Liquid Crystals with Different Polymer Concentrations, Polymers 16(17), 2436 (2024)

    https://doi.org/10.3390/polym16172436

  4. Realization of single-photon emitters with high brightness and high stability and excellent monochromaticity, Matter 7(3) 1106 (2024) https://doi.org/10.1016/j.matt.2023.12.026

  5. Electrically tunable two-color band edge cholesteric laser, Polymers 15(24) 4656 (2023) https://doi.org/10.3390/polym15244656

  6. Tunable Topological Lasing of Circularly Polarized Light in a Soft-matter-based Superlattice, Laser & Photonics Reviews 17(7) 2200643 (2023) https://doi.org/10.1002/lpor.202200643

  7. Dual-wavelength lasing with orthogonal circular polarizations generated in a single layer of a polymer-cholesteric liquid crystal superstructure, Polymers 15(5) 1226 (2023) https://doi.org/10.3390/polym15051226

  8. High-spatial-resolution composition analysis of micro/nanostructures with a nanoscale compositional variation, Nano Research 16(1) 1090 (2023) https://doi.org/10.1007/s12274-022-4648-0

  9. The influence of quantum dots on the optical properties of a room temperature cholesteric liquid crystal, Liquid Crystals 49(15) 2095 (2022)https://doi.org/10.1080/02678292.2022.2103850

  10. Chip-Scale THz Frequency Conversion and Tuning, Opt. Photon. News 33(12), 37 (2022) (Optics in 2022)

  11. Nonlinear polarization imaging by parametric upconversion, Optica 9(11) 1297 (2022)  https://doi.org/10.1364/OPTICA.471177 

  12. Static models of liquid crystals and their application progress, Chinese Journal of Liquid Crystals and Displays 37(8): 1032 (2022) (in Chinese

  13. Interface characteristics of graphene/ZnS hybrid-dimensional heterostructures, Opt. Exp. 30(23) 42605 (2022)   https://doi.org/10.1364/OE.475408

  14. Topologically tuned terahertz confinement in a nonlinear photonic chip, Light: Science & Applications 11, 152-8 (2022) https://doi.org/10.1038/s41377-022-00823-7

  15. Strong in-plane scattering of acoustic graphene plasmons by surface atomic steps, Nat. Commun. 13, 983 (2022)  https://doi.org/10.1038/s41467-022-28614-z

  16. Strain regulated interlayer coupling in WSe2/WS2 heterobilayer, Nanotechnology 33(8) 085705 (2022)  https://10.1088/1361-6528/ac3a39

  17. Plasmon-induced transparency in a reconfigurable composite valley photonic crystal, Opt. Exp. 30(3) 4381 (2022)  https://doi.org/10.1364/OE.447946

  18. Transfer matrix method for light propagation in variable complex chiral media, Phys. Rev. E 104, 064702 (2021)  https://doi.org/10.1103/PhysRevE.104.064702

  19. Nanoinfrared Characterization of Bilayer Graphene Conductivity under Dual-Gate Tuning, NanoLett. 21(12) 5151 (2021)

  20. Tunable terahertz topological edge and corner states in designer surface plasmon crystals, Opt. Exp. 29(13) 19531 (2021)

  21. Simulation of the laser-induced oxidation process in fabricated Sn-MTMO grayscale photomasks, OSA Continuum 4(1) 65 (2021)

  22. Multifunctional and tunable trigate graphene metamaterial with “Lakes of Wada” topology, Opt. Exp. 28(17) 24772 (2020)

  23. Low threshold random lasing in dye-doped and strongly disordered chiral liquid crystals, Photon. Res. 8(5) 642 (2020)

  24. Strain‐Induced Band‐Gap Tuning of 2D-SnSSe Flakes for Application in Flexible Sensors, Adv. Mater. Technol. 5(1) 1900853 (2020)

  25. Graphene P-N junction induced by single-gate control of dielectric structures, J. Mater. Chem. C 7, 8796 (2019)

  26. Perseverance of direct bandgap in multilayer 2D PbI2 under an experimental strain up to 7.69%, 2D Mater. 6, 025014 (2019)

  27. Compartmentalized out-of-plane alignment technology of liquid crystals based on femtosecond laser direct writing and its applications, Chin. J. Lasers 46, 0508009-11 (2019)

  28. Laser direct writing of graphene nanostructures beyond the diffraction limit by graphene oxidation, Opt. Exp. 26, 20726 (2018)

  29. Coupling of defect modes in cholesteric liquid crystals separated by isotropic polymeric layers, Polymers 10, 00805 (2018)

  30. Electrically tunable generation of vectorial vortex beams with micro-patterned liquid crystal structures, Chin. Opt. Lett. 15, 070501 (2017)

  31. In-Plane Electrical Connectivity and Near-Field Concentration of Isolated Graphene Resonators Realized by Ion Beams, Adv. Mater. 29, 1701083 (2017)

  32. The mechanisms and research progress of laser fabrication technologies beyond diffraction limit, Acta Phys. Sin. 66, 144207 (2017)

  33. Reconfigurable metasurfaces enabling light-polarization control by light, Light: Science & Applications 6, e16254 (2017)

  34. Tailorable reflection of surface plasmons in defect engineered graphene, 2D Materials 3, 045001 (2016)

  35. Tunable Band-Stop Filters for Graphene Plasmons Based on Periodically Modulated Graphene, Sci. Rep. 6, 26796 (2016)

  36. R6G molecule induced modulation of the optical properties of reduced graphene oxide nanosheets for use in ultrasensitive SPR sensing, Sci. Rep. 6, 21254 (2016)

  37. Efficient phase-matching for difference frequency generation with pump of Bessel laser beams, Opt. Exp. 24, 901 (2016)

  38. Compartmentalized liquid crystal alignment induced by sparse polymer ribbons with surface relief gratings out-of-plane surface relief gratings for micro-structured liquid crystal alignment, Opt. Lett. 41, 336 (2016)



社会兼职

《Polymers》期刊编委

《激光技术》期刊编委

 天津市光学学会常务理事

天津市激光技术学会理事



搜狐视频直播:心说正物的视频空间-搜狐视频 (sohu.com)

教学经历

《电磁学》                      本科生

《大学物理学基础II-2》     本科生

《纳米光子学》                 研究生


荣誉称号

◇ 2001年度天津市自然科学一等奖(第四完成人)

◇ 2003年博士学位论文入选天津市优秀博士论文

◇ 2008年入选教育部“新世纪优秀人才支持计划”

◇ 2010年获伟德bv1946官网捷成奖教金

◇ 2013年入选“伟德bv1946官网百名青年学科带头人培养计划”


26 访问