Characteristics of All-optical Switch in Photochromic Films Containing Spirooxazines

NING Xiao-dan; FU Shen-cheng; ZHENG Mei-ling; XIE Xin

doi:10.3788/gzxb20164506.0631003

[2] CHEN Xi-qu.Theoretical analysis and experimental measurement on the response time of optical switch based on VO2 thin film［C］. Photonics and Optoelectronics (SOPO), 2012 Symposium on. IEEE, 2012: 1-4.

[3] CHEN Xi-qu, DAI Jun. Optical switch based on nanocrystalline VOx thin film［C］.Asia Communications and Photonics. International Society for Optics and Photonics, 2009: 763109.

[4] FUKAYA T, TOMINAGA J, NAKANO T, et al. Nanometer-scale optical switch formation in antimony thin film and its time response property［C］.Fifth International Symposium on Optical Storage (IS0S 2000). International Society for Optics and Photonics, 2001: 197-200.

[5] YANG Qi. Sensitive optical switch based on Bi2 S3 single nanowire and nanowire film［J］. Journal of Alloys and Compounds, 2014, 612: 301-305.

[6] LIU Ru-jun, XU Tang, ZHANG Chun-ping, et al. Effects of doping concentration and solvent on all-optical switching characteristics of azo-dye-doped polymer films ［J］. Acta Photonica Sinica, 2008, 37(2): 252-255.

[7] ISHIGURO Y, HAYAKAWA R, CHIKYOW T, et al. Optical switching of carrier transport in polymeric transistors with photochromic spiropyran molecules［J］. Journal of Materials Chemistry C, 2013, 1(17): 3012-3016.

[8] TIAN He, YANG Song-jie. Recent progresses on diarylethene based photochromic switches［J］. Chemical Society Reviews, 2004, 33(2): 85-97.

[9] ISHIGURO Y, HAYAKAWA R, YASUDA T, et al. Unique device operations by combining optical-memory effect and electrical-gate modulation in a photochromism-based dual-gate transistor ［J］. ACS Applied Materials & Interfaces, 2013, 5(19): 9726-9731.

[10] BERKOVIC G, KRONGAUZ V, WEISS V. Spiropyrans and spirooxazines for memories and switches［J］. Chemical Reviews, 2000, 100(5): 1741-1754.

[11] ZHENG Yuan,YAO Bao-li,WANG Ying-li, et al. Optical dynamic response of photochromic bacteriorhodopsin films ［J］. Acta Photonica Sinica, 2002, 31(1): 10-14.

[12] HUANG Yan-yi, LIANG Wei. Spiro-oxazine photochromic fiber optical switch［J］. Applied Physics Letters, 2006, 88(18): 181102-181104.

[13] FU Shen-cheng,HU Wei-lin,XIE Ming-gui, et al. Erasure mechanisms of polarization holographic gratings in spirooxazine-doped polymer films［J］. Journal of Applied Polymer Science, 2009, 111(4): 2157-2162.

[14] OCK K, JO N, KIM J, et al. Thin film optical waveguide type UV sensor using a photochromic molecular device, spirooxazine［J］. Synthetic Metals, 2001, 117(1): 131-133.

[15] XIE Xin, ZHENG Mei-ling, FU Shen-cheng, et al. Two-wavelength exposure enhancement in holographic data storage of spirooxazine-doped polymers［J］. Optics Communications, 2015, 338: 269-276.

[16] FU Shen-cheng,WANG Xiu-li,HU Wei-lin, et al. Formation mechanisms of multiple holographic gratings in spirooxazine-doped polymer films［J］. Optik-International Journal for Light and Electron Optics, 2013, 124(2):139-143.

[17] PARDO R, ZAYAT M, LEVY D. Photochromic organic-inorganic hybrid materials［J］. Chemical Society Reviews, 2011, 40(2): 672-687.