Page 197 - Photoreactive Organic Thin Films
P. 197

MIKHAIL V. KOZLOVSKY, LEV M. BL1NOV, AND WOLFGANG HAASE

                    polyimide film with high glass transition temperature. Opt. Commun. 147, 313 (1998),
                 59. Kulinna, C., Hvilsted, S., Hendann, C., Siesler, W. H., Ramanujam, P. S. Selectively deuterat-
                    ed liquid crystalline cyanobenzene side-chain polyesters. 3. Investigations of laser-induced
                    segmental mobility by Fourier Transform Infrared Spectroscopy. Macromolecules 31, 2141
                    (1998).
                 60. Bata, L,, Fodor-Csorba, K., Szabon, J., Kozlovsky, M. V., and Holly, S. A chiral side-chain
                    polymer with layered structure. Ferroelectrics 122, 149 (1991).
                 61. Kozlovsky, M. V., Fodor-Csorba, K., Bata, L., Shibaev, V. P. Chiral smectic side-chain
                    copolymers. 1. Synthesis and phase behavior. Eur, Polym.J. 28, 901 (1992).
                 62. Kilian, D., Kozlovsky, M. V., and Haase, W. Dielectric measurements on the 'isotropic smec-
                    tic phase* of dyed side-chain polymers. Liquid Crystals 26, 705 (1999).
                 63. Kozlovsky, M. V., Haase, W., Kuball, H.-G. Influence of chirality on mesophase state of
                    side-chain polymers with phenyl benzoate mesogenic groups. In: 6th European Conference
                    on Liquid Crystals; March 25-30, 2001, Halle (Saale), Germany. Abstracts, 5-P14.
                 64. Demikhov, E., Kozlovsky, M. V. Amorphous chiral smectic A phase of side-chain copoly-
                    mers. Liquid Crystals 18, 911 (1995).
                 65. Vill, V. LiqCryst 3.3. Database of liquid crystalline polymers. Hamburg: LCI Publischer
                    GmbH (1999).
                 66. Renn, S. R., Lubensky, T. C. Abrikosov dislocation lattice in a model of the cholesteric —
                    to — smectic-A transition. Phys, Rev. A 38, 2132 (1988)
                 67. Renn, S. R., Lubensky, T. C. Existence of a Sm-C grain boundary phase at the chirai NAC
                    point. MoL Cryst. Liq. Cryst. 209, 349 (1991).
                 68. Goodby, J. W., Waugh, M. A., Stein, S. M., Chin, E., Pindak, R., and Patel, J. S. A new
                    molecular ordering in helical liquid crystals./. Am. Chem. Soc. Ill, 8119 (1989)
                 69. Navaliles, L., Barois, P., Nguyen, H. T. X-ray measurement of the twist grain boundary
                    angle in the liquid crystal analog of the Abrikosov phase. Phys. Rev. Lett. 71, 545 (1993).
                 70. Goodby, J. W. Twist grain boundary (TGB) phases. In: D. M. P. Mingos Ed. Liquid crystals
                    II. Structure and bonding, Vol. 95, New York: Springer Verlag, 83 (1999).
                 71. Kitzerow, H.-G. Twist grain boundary phases. In: C. Bahr, H. Kitzerow Eds. Chirality in liq-
                    uid crystals. New York: Springer Verlag, 297 (2000).
                 72. Dierking, L, Lagerwall, S. T. A review of textures of the TGBA* phase under different
                    anchoring geometries. Liquid Crystals, 26, 83 (1999)
                 73. Kozlovsky, M. V., Haase, W., Stakhanov, A., and Shibaev, V. P. Chiral smectic side-chain
                    copolymers. 3. Copolymers containing a diazo chromophore. Mol. Cryst. Liq. Cryst. 321,
                    177(1998).
                 74. Kozlovsky, M. V, Meier, J. G., and Stumpe, J. Chiral side-chain copolymers. 4. Kinetics of
                    the phase transition from conventional isotropic liquid to the TGB-like "isotropic smectic"
                    state. Macromol. Cbem. Phys. 201, 2377 (2000).
                 75. Btinov, L. M., Barberi, R., Kozlovsky, M. V., Lazarev, V. V., and de Santo, M. P. Optical
                    anisotropy and four possible orientations of a nematic liquid crystal on the same film of a
                    photochromic chiral smectic polymer. /. Nonlinear Opt. Phys. Mat. 9, 1 (2000).
                 76. Blinov, L. M., Kozlovsky, M. V., Ozaki, M., Skarp, K., and Yoshino, K. Photoinduced
                    dichroism and optical anisotropy in a liquid crystalline azobenzene side-chain polymer caused
                    by anisotropic angular distribution of trans and cis isomers. /. Appl. Phys. 84, 3860 (1998).
                 77. Blinov, L. M., Kozlovsky, M. V., and Gipparone, G. Photochromism and holographic grat-
                    ing recording on a chiral side-chain polymer containing azobenzene chromophores. Chem.
                    Phys., 245, 473 (1999).
                 78. Blinov, L. M., Gipparone, G., Kozlovsky, M. V., Lazarev, V. V., Scaramuzza, N. Holographic
                    "development" of a hidden UV image recorded on a liquid crystalline polymer. Optics
                    Commun. 73, 137 (2000).
                 79. Blinov, L. M., Kozlovsky, M. V., Ozaki, M., Yoshino, K. Effect of the trans-cis isomerization
                    of a chiral azo-dye on the dye induced ferroelectricity in an achiral liquid crystal. MoL Mat,
                    6, 235 (1996)
                 80. Blinov, L. M., Barberi, R., Cipparrone, G., Kozlovsky, M. V, Lazarev, V. V., Ozaki, M.,
                    de Santo, M. P., Scaramuzza, N., and Yoshino, K. Reversible UV Image Recording on a
                    photochromic side-chain liquid crystalline polymer. MoL Cryst. Liq. Cryst. 355, 359-380
                    (2001).
   192   193   194   195   196   197   198   199   200   201   202