王骁乾

王骁乾
华东理工大学物理学院 副教授

电话:xxxxxx
邮箱:xqwang@ecust.edu.cn
微信:xxxxxx
地址: 华东理工大学实验二楼物理学院209 上海市梅陇路130号

个人简历

……

教育经历

2009 - 2014 香港科技大学,电子及计算机工程系,博士
2006 - 2009 复旦大学,物理系,硕士
2002 - 2006 复旦大学,物理系,学士

主持的科研项目

2020 - 2022 应用光学国家重点实验室开放课题
2018 - 2020 国家自然科学青年基金
2016 - 2018 上海市浦江人才计划

研究方向

液晶微纳结构及光子器件:

  1. 液晶微纳结构加工
  2. 液晶几何相位光学元件
  3. AI辅助液晶测试系统
  4. 光与物质相互作用
  5. 先进教学仪器开发

学术成果

  1.  “A simple polarimetric measurement based on a computational algorithm,”Optics Letters, 48(15), 4085-4088, (2023).
  2. “Collecting, transporting and sorting micro-particles via the optical slings generated by a liquid crystal q(φ)-plate,” Optics Express, 31(4), 5736-5746, (2023).
  3. “Light Reconfigurable Topological Optical Phase Structure Enabled by a Photoresponsive Chiral System,” Advanced Optical Materials, 11(8), 2202529, (2023).
  4. “Real-time measurement of the current–voltage characteristics of a solar cell for laboratory experiment,” Physics Education, 58, 055021, (2023).
  5. “Wavelength-adaptive optical angular momentum recognizer via programmable soft materials,” Journal of Materials Chemistry C, 11,5307-5315, (2023).
  6. “LCP/TLC based composite multi-dimensional polarization-dependent anti-counterfeiting device,” Acta Physica Sinica, 72, 174206, (2023).
  7. “A long-term stable low-viscous self-organized blue phase liquid crystal superstructure with wide operation temperature range,” Liquid Crystals, 49(2), 192–200, (2022).
  8. “Cholesteric Soft Matter Molded Helical Photonic Architecture toward Volatility Monitoring of Organic Solvent,” Advanced Photonics Research, 2(8),2100018, (2021).
  9.  “Colour generation for optically driving liquid crystal display,” Liquid Crystals,47(12), 1729–1734, (2020).
  10. “Photoaligning and Photopatterning: New LC Technology,” Crystals, 10, 323,(2020).
  11. “Ferroelectric liquid crystals for fast switchable circular Dammann grating,”Chinese Optics Letters, 18(8), 080002, (2020).
  12.  “Light-rewritable geometric phase and reflectance modulations enabled by pattern-aligned photoresponsive liquid crystal superstructures,” Liquid Crystals, 47(2), 255–262, (2020).
  13. “Electrically tunable helicity of cholesteric heliconical superstructure,” Chinese Optics Letters, 18(8), 080005, (2020).
  14. “Generation of arbitrary vector vortex beams on hybrid-order Poincaré sphere based on liquid crystal device,” Optics Express, 27(6), 8596-8604, (2019).
  15. “Low-voltage-driven smart glass based on micro-patterned liquid crystal Fresnel lenses,” Applied Optics, 58(4), 1146, (2019).
  16. “Micro-patterned liquid crystal Pancharatnam–Berry axilens,” Chinese Optics Letters, 16(6), 062301, (2018).
  17. “Bifocal Optical-Vortex Lens with Sorting of the Generated Nonseparable Spin-Orbital Angular-Momentum States,” Physical Review Applied, 7, 034010, (2017).
  18. “Light-Driven Liquid Crystal Circular Dammann Grating Fabricated by a Micro-Patterned Liquid Crystal Polymer Phase Mask,” Polymers, 9, 380, (2017).
  19. “Switchable Fresnel lens based on hybrid photo-aligned dual frequency nematic liquid crystal,” Optical Materials Express, 7(1), 8-15, (2017).
  20. “Light-Patterned Crystallographic Direction of a Self-Organized 3D Soft Photonic Crystal,” Advanced Materials, 1703165, (2017).
  21.  “Lasing of self-organized helical cholesteric liquid crystal micro-droplets based on emulsification,” Optical Materials Express, 6(4), 1256-1261, (2016).
  22. “Electrically/optically tunable photo-aligned hybrid nematic liquid crystal Dammann grating,” Optics Letters, 41(24), 5668-5671, (2016).
  23.  “Liquid crystal Fresnel lens display,” Chinese Physics B, 25(9), 094215,(2016).
  24.  “Micro-patterned photo-aligned ferroelectric liquid crystal Fresnel zone lens,”Optics Letters, 40(8), 1643-1646, (2015).
  25. “Liquid crystal Fresnel zone lens based on single-side-patterned photoalignment layer,” Applied Optics, 53(10), 2026-2029, (2014).
  26. “Switchable Fresnel lens based on micro-patterned alignment,” Optics Letters 38(11), 1775-1777, (2013).
  27. “Autostereoscopic 3D pictures on optically rewritable electronic paper,”Journal of the SID 21(2), 103, (2013).
  28. “Evaluation of LC Fresnel phase plate utilized as color filter,” Molecular Crystals and Liquid Crystals 559, 228, (2012).
  29. “A comparison of tissue penetrations between single and two-photon-excitations,” Applied Physics Letters 95, 143705, (2009).
  30. “Light distribution in the erythrocyte under laser irradiation: a finite difference time-domain (FDTD) calculation,” Applied Optics 47(22), 4037-4044, (2008).
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