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Chiral Symmetry Breaking During Growing Process of NaClO3 Crystal under Direct-Current Electric Field 被引量:3

Chiral Symmetry Breaking During Growing Process of NaClO3 Crystal under Direct-Current Electric Field
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摘要 We investigate the influence of dc electric field on chiral symmetry breaking during the growing process of NaClO3 crystal. Nucleation and growth of NaClO3 are completed from an aqueous solution by a fast cooling temperature technology. A pair of polarization microscopes are used to identify a distribution of chiral crystals. Experimental results indicate that the dc electric field has an effect on distribution of chirality, but the direction of the dc electric field is not sensitive to the chiral autocatalysis and selectivity, i.e. the nature convection driving by the gravity does not play an important role on a thin layer of NaClO3 solution. The experimental phenomena may be elucidated by the ECSN mechanism. We investigate the influence of dc electric field on chiral symmetry breaking during the growing process of NaClO3 crystal. Nucleation and growth of NaClO3 are completed from an aqueous solution by a fast cooling temperature technology. A pair of polarization microscopes are used to identify a distribution of chiral crystals. Experimental results indicate that the dc electric field has an effect on distribution of chirality, but the direction of the dc electric field is not sensitive to the chiral autocatalysis and selectivity, i.e. the nature convection driving by the gravity does not play an important role on a thin layer of NaClO3 solution. The experimental phenomena may be elucidated by the ECSN mechanism.
机构地区 Institute of Physics
出处 《Chinese Physics Letters》 SCIE CAS CSCD 2007年第1期252-255,共4页 中国物理快报(英文版)
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参考文献18

  • 1Pagni R M and Compton R N 2002 Crystal Growth Design 2 249
  • 2Kondepudi D K, Kaufman R J and Nolini Singh 1990 Science 250 975
  • 3Qian R Y and Botsaris G D 1998 Chem. Engin. Sci. 53 1745
  • 4Chen W C, Zhao M, Sun Y P and Chen X L 2004 J. Syn. Crystals 33 479
  • 5Buhse T et al 2000 Phys. Rev. Lett. 84 4405
  • 6Julyun H E C et al 2004 Phys. Rev. Lett. 93 035502
  • 7Viedma C 2005 Phys. Rev. Lett. 94 065504
  • 8Viedma C 2004 J. Crystal Growth 261 118
  • 9Botsaris G D et al 1999 AIChE J. 45 201
  • 10Kondepudi D K et al 1995 J. Am. Chem. Soc. 117 401

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