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Liquid Crystals Volume 16, 1994 - Issue 3
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Original Articles

λ-Shaped mesogens. Structure, phase formation and properties

D. Braun Deutsches Kunststoff-Institut, Darmstadt
,
M. Reubold Deutsches Kunststoff-Institut, Darmstadt
,
L. Schneider Fachbereich Physikalische Chemie, Philipps-Universität, Marburg, Germany
,
M. Wegmann Deutsches Kunststoff-Institut, Darmstadt
&
J. H. Wendorff Fachbereich Physikalische Chemie, Philipps-Universität, Marburg, Germany
Pages 429-443 | Received 14 Jun 1993, Accepted 11 Sep 1993, Published online: 24 Sep 2006

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Sandhya Dixit. (2018) Study of Y-shaped liquid crystalline materials with polar nitro substituent. Molecular Crystals and Liquid Crystals 664:1, pages 77-84.
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Jun Hyup Lee, Seung Jun Lee & Jae Young Jho. (2014) Room temperature supramolecular columnar liquid crystals formed by hydrogen bonding of isoquinoline derivatives. Phase Transitions 87:7, pages 656-665.
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D.Ž. Obadović, A. Vajda, A Jákli, A. Menyhárd, M. Kohout, J. Svoboda, M. Stojanović, N. Éber, G. Galli & K. Fodor-Csorba. (2010) Mesophase behaviour of binary mixtures of bell-shaped and calamitic compounds. Liquid Crystals 37:5, pages 527-536.
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VjacheslavV. Zuev. (2009) Synthesis of Y-Shaped Liquid Crystals and the Influence of Their Structure on the Phase Behavior. Molecular Crystals and Liquid Crystals 506:1, pages 3-12.
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Articles from other publishers (16)

Shigeyuki Yamada, Tsuyoshi Tanaka, Takahiro Ichikawa & Tsutomu Konno. (2019) Novel V- and Y-Shaped Light-Emitting Liquid Crystals with Pentafluorinated Bistolane-Based Luminophores. ACS Omega 4:2, pages 3922-3932.
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C. Fakirov. 2012. Synthetic Polymer-Polymer Composites. Synthetic Polymer-Polymer Composites 281 299 .
Atsushi Yoshizawa. (2012) Liquid crystal supermolecules stabilizing an optically isotropic phase with frustrated molecular organization. Polymer Journal 44:6, pages 490-502.
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Seung Jun Lee, Jiwon Lee, Shin Woo Lee, Jun Hyup Lee & Jae Young Jho. (2012) Photoluminescent supramolecular liquid crystals formed by hydrogen bonding of non-mesogenic donor and acceptors. Journal of Industrial and Engineering Chemistry 18:2, pages 767-774.
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C. C.Fakirov. 2012. Synthetic Polymer-Polymer Composites. Synthetic Polymer-Polymer Composites 281 299 .
M. Vijay Srinivasan & P. Kannan. (2011) Photo-switching and nonlinear optical behaviors of center linked bent-core azobenzene liquid crystalline polymers. Journal of Materials Science 46:15, pages 5029-5043.
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Atsushi Yoshizawa. (2008) Unconventional liquid crystal oligomers with a hierarchical structure. Journal of Materials Chemistry 18:25, pages 2877.
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B. Schartel & J. H. Wendorff. (2004) Molecular composites for molecular reinforcement: A promising concept between success and failure. Polymer Engineering & Science 39:1, pages 128-151.
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D. Demus, J. Goodby, G. W. Gray, H.‐W. Spiess & V. VillDietrich Demus. 1998. Handbook of Liquid Crystals. Handbook of Liquid Crystals 133 187 .
D. Demus, J. Goodby, G. W. Gray, H.‐W. Spiess & V. VillWolfgang Weissflog. 1998. Handbook of Liquid Crystals. Handbook of Liquid Crystals 835 863 .
D. Demus, J. Goodby, G. W. Gray, H.‐W. Spiess & V. VillWolfgang Weissflog. 1998. Handbook of Liquid Crystals Set. Handbook of Liquid Crystals Set 835 863 .
D. Demus, J. Goodby, G. W. Gray, H.‐W. Spiess & V. VillDietrich Demus. 1998. Handbook of Liquid Crystals Set. Handbook of Liquid Crystals Set 133 187 .
B. Schartel, V. St�mpflen, J. Wendling, J. H. Wendorff, W. Heitz & R. Neuhaus. (1996) Rigid star-shaped multipodes: molecules designed for molecular reinforcement. Colloid & Polymer Science 274:10, pages 911-919.
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V. Vill. 1995. Transition Temperatures and Related Properties of Four-Ring Systems, Five-Ring Systems, and More than Five Rings. Transition Temperatures and Related Properties of Four-Ring Systems, Five-Ring Systems, and More than Five Rings 571 589 .
V. Vill. 1995. Transition Temperatures and Related Properties of Four-Ring Systems, Five-Ring Systems, and More than Five Rings. Transition Temperatures and Related Properties of Four-Ring Systems, Five-Ring Systems, and More than Five Rings 550 570 .
V. Vill. 1995. Transition Temperatures and Related Properties of Four-Ring Systems, Five-Ring Systems, and More than Five Rings. Transition Temperatures and Related Properties of Four-Ring Systems, Five-Ring Systems, and More than Five Rings 250 274 .

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