References
- Reinitzer, F. (1888). Monatsh, 9, 421–441.
- Imrie, C. T. (1999). Struct. Bond., 95, 149–192.
- Gray, G. W. (1974). In: Liquid Crystals and Plastic Crystals, Vol. 1, Chapter 4, Gray, G. W. & Winsor, P. A. (Eds.), Ellis Horwood: Chichester, pp. 103–153.
- Gray, G. W. (1962). Molecular Structures and Properties of Liquid Crystals. Academic Press: Landon.
- Henderson, P. A., Neimeyer, O., & Imrie, C. T. (2001). Liq. Cryst., 28, 463–472.
- Imrie, C. T., & Luckhrust, G. R. (1998). Liquid dimers and oligomers. In: Handbook of Liquid Crystal, Low Molecular Liquid Crystal, Vol. 2B, D. Demus, J. W. Goodby, G. W. Graw, H. Spiess, & V. Vill (Eds.), Wiley-VCH: Weinheim, Germany, pp. 801–833.
- Hird, M., Toyne, K. J., Gray, G. W., Day, S. E., & McDonell, D. G. (1993). Liq. Cryst., 15, 123.
- Collings, P. J., & Hird, M. (1997). Introduction of Liquid Crystals Chemistry and Physics, Taylor and Francis Ltd.: U.K. 1998.
- Marcos, M., Omenat, A., Serrano, J. L., & Ezcurra, A. (1992). Adv. Matter, 4, 285.
- Hird, M., Toyne, K. J., Gray, G. W., & Day, S. E. (1993). Liq. Cryst., 14, 741.
- Narmura, S. (2001). Displays, 22(1), 1.
- Kim, W. S., Elston, S. J., & Raynes, F. P. (2008). Displays, 29, 458–463.
- Hertz, E., Lavorel, B., & Faucher, O. (2011). Nature Photon, 5, 783.
- Gray, G. W. & Winsor, P. A. (Eds.). In: Liquid Crystals and Plastic Crystals, chapter-6.2, . 1, 308–326.
- Calliste, C. A., Le Bail, J. C., Trouilas, P., Poug, C., Chulia, A. j., & Doroux, L. J. (2001). Anticancer Res., 21, 3949–3956.
- Imaran, T., Dr. Sahanashahi Ramteke, V., & Syed, I. (2012). IJPRAS, 1, 06–11.
- Merkl, R. et al. (2010). Czech J. Food Sci., 28, 275–279.
- Craig, B. F. (1991). J. Gen. Microbiol., 137, 2339–2345.
- Benjamin, B. et al. (2007). Patent No: WO2007140510A1 Agrochemical composition comprising liquid crystal particles.
- Ranjan, U. (1975). Singapore Med. J., 16(4), 297–300.
- Demus, D. (1988). Mol. Cryst. Liq. Cryst., 165 45–84.
- Demus, D. (1988). Liq. Cryst., 5, 75–110.
- (1) Suthar, D. M., & Doshi, A. V. Mol. Cryst. Liq. Cryst., 575, 76–83. (2) Chauhan, H. N., & Doshi, A. V. (2013). Mol. Cryst. Liq. Cryst., 570, 92–100. (3) Chaudhari, R. P., Chauhan, M. L., & Doshi, A. V. (2013). 575, 88–95. (4) Bhoya, U. C., Vyas, N. N., & Doshi, A. V. (2012). Mol. Cryst. Liq. Cryst., 552, 104–110.
- Suthar, D. M., Doshi, A. A., & Doshi, A. V. (2013). Mol. Cryst. Liq. Cryst., 582, 79–87.
- Chauhan, M. L., Doshi, A. V., & Joshi, C. G. (2011). Der Pharma Chem., 3(5), 226–232.
- Doshi, A. V., & Makwana, N. G. (2011). Der Pharma Chem., 3(1), 580–587.
- Patel, R. B., & Doshi, A. V. (2011). Der Pharma Chem., 3(2), 110–117.
- Ha, S. T. & Low, Y. W. (2013) J. Chem., Vol. 2013, Article ID 943723, 6 pages, doi: 10.1155/2013/943723.
- Nagaveni, N. G., & Prasad, V. (2013). Phase Tran., 86, 12, 1227.
- Patel, R. B. & Doshi, A. V. (2011). Der Pharma Chem.3(1), 338–348.
- Rola, R. R., Bhola, G. N., & Bhoya, U. C. (2015). Int. Lett. Chem., Phys. Astron., 47, 67–76.