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Liquid Crystals Volume 37, 2010 - Issue 12
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Original Articles

Supramolecular main-chain liquid crystalline polymers and networks with competitive hydrogen bonding: networks and linear polymers created from tris- and bis-functionalised pyridyl networking agents

Jason R. Greuel Department of Chemistry, University of Wisconsin-Eau Claire, Eau Claire, WI, USA
,
Timothy E. Andrews Department of Chemistry, University of Wisconsin-Eau Claire, Eau Claire, WI, USA
,
Justin J. Wichman Department of Chemistry, University of Wisconsin-Eau Claire, Eau Claire, WI, USA
,
Joshua D. Tessner Department of Chemistry, University of Wisconsin-Eau Claire, Eau Claire, WI, USA
&
Kurt N. Wiegel Department of Chemistry, University of Wisconsin-Eau Claire, Eau Claire, WI, USACorrespondence[email protected]
Pages 1515-1520 | Received 12 Jul 2010, Accepted 09 Oct 2010, Published online: 10 Dec 2010

Citations (18)

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Deepak Devadiga & T. N. Ahipa. (2020) Heterodimeric hydrogen-bonded mesogens comprising pyridine moiety: a review. Liquid Crystals Reviews 8:1, pages 5-28.
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Eric A. John, Michael D. Heltne, Evan C. Bornowski, David J. Lindberg, Joshua D. Carli, Seth B. Legare, John T. Carli & Kurt N. Wiegel. (2019) Supramolecular liquid crystals displaying competitive hydrogen bonding: Mesogenic associative chain structures using rigid and flexible pyridyl groups. Molecular Crystals and Liquid Crystals 691:1, pages 35-41.
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John T. Carli, Charles D. Lindberg, Michael D. Heltne, Evan C. Bornowski, Eric A. John & Kurt N. Wiegel. (2017) Supramolecular main-chain liquid crystalline polymers with competitive hydrogen bonding: Inclusion of structurally analogous hydrogen bond acceptors and the effects on liquid crystallinity. Molecular Crystals and Liquid Crystals 656:1, pages 83-88.
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Ethan J. Fuhrman, Evan C. Bornowski, John T. Carli, Matthew A. Dietlin, Michael D. Heltne, Eric A. John, Seth B. Legare, Charles A. Lindberg & Kurt N. Wiegel. (2017) Supramolecular liquid crystals displaying competitive hydrogen bonding: Small molecule mesogens assembled through different hydrogen bond assemblies. Molecular Crystals and Liquid Crystals 656:1, pages 48-53.
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Izabela Korbecka, Damian Pociecha & Zbigniew Galewski. (2017) 4-Octylphenylazo-4′-phenyl alkanoates – homologous series of azomesogens with extremely rich liquid-crystalline polymorphism. Liquid Crystals 44:10, pages 1600-1606.
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DustinD. Fredrickson, BartA. Hilberg, KyleK. Lasure, JoshuaD. Tessner, AlexanderE. Waner, MichaelD. Zenner & KurtN. Wiegel. (2012) Supramolecular main-chain liquid crystalline polymers and networks with competitive hydrogen bonding: a study of rigid networking agents in supramolecular systems. Liquid Crystals 39:10, pages 1243-1251.
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ErikL. Janssen, IvanE. Salazar, StevenR. Friday & KurtN. Wiegel. (2012) Supramolecular main-chain liquid crystalline polymers and networks with competitive hydrogen bonding: flexible bis-cinnamic acids as hydrogen bond donors in thermoreversible networks and polymers. Liquid Crystals 39:7, pages 857-863.
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K. Balaji & S.C. Murugavel. (2012) Studies on synthesis and thermal characterisation of thermotropic liquid-crystalline poly(benzylidene-ether)s containing alkanones and methylene spacers in the main chain. Liquid Crystals 39:6, pages 683-693.
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RichardF. Miesen, StevenR. Friday & KurtN. Wiegel. (2011) Supramolecular main-chain liquid crystalline polymers and networks with competitive hydrogen bonding: a study of flexible bis-acids and a mixture of rigid and flexible polypyridyls. Liquid Crystals 38:10, pages 1341-1347.
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Seung Jun Lee, Mi Kyoung You, Shin Woo Lee, Jiwon Lee, Jun Hyup Lee & Jae Young Jho. (2011) Star-shaped supramolecular liquid crystals formed by hydrogen bonding between phloroglucinol and stilbazole derivatives with different molecular shapes. Liquid Crystals 38:10, pages 1289-1299.
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Wan-Li He, Ling Wang, Zhou Yang, Huai Yang & Mo-Wen Xie. (2011) Synthesis and optical behaviour of hydrogen-bonded liquid crystals based on a chiral pyridine derivative. Liquid Crystals 38:10, pages 1217-1225.
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MatthewD. Hammers, JustinJ. Wichman & KurtN. Wiegel. (2011) Supramolecular main-chain liquid crystalline polymers and networks with competitive hydrogen bonding: a study of increased flexibility on distonic mesogenic hydrogen bond acceptors with networks created from tetrakis-, tris- and bis-functionalised pyridyl networking agents. Liquid Crystals 38:5, pages 581-587.
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Articles from other publishers (6)

Diederik W. R. Balkenende, Rebecca A. Olson, Sandor Balog, Christoph Weder & Lucas Montero de Espinosa. (2016) Epoxy Resin-Inspired Reconfigurable Supramolecular Networks. Macromolecules 49:20, pages 7877-7885.
Crossref
Qun Ye, Jianwei Xu & Chaobin He. 2016. Liquid Crystalline Polymers. Liquid Crystalline Polymers 391 409 .
Lucas Montero de Espinosa, Sandor Balog & Christoph Weder. (2014) Isophthalic Acid–Pyridine H-Bonding: Simplicity in the Design of Mechanically Robust Phase-Segregated Supramolecular Polymers. ACS Macro Letters 3:6, pages 540-543.
Crossref
Hong Yang, Zi Liang Wu & Patrick Keller. 2014. Handbook of Liquid Crystals. Handbook of Liquid Crystals 1 31 .
Richard S. Clary, Christopher D. Lee, William G. Monroe IV, David A. Vaughn, Ragy T. Ragheb, Jack W. Erter III, David M. Brown & David A. Schiraldi. (2013) A Green, One-Pot Route to the Biphenyldicarboxylic Acids: Useful Intermediates in Polymer Synthesis. International Journal of Organic Chemistry 03:02, pages 143-147.
Crossref
Zhenbin Niu, Feihe Huang & Harry W. Gibson. (2011) Supramolecular AA−BB-Type Linear Polymers with Relatively High Molecular Weights via the Self-Assembly of Bis( m -phenylene)-32-Crown-10 Cryptands and a Bisparaquat Derivative . Journal of the American Chemical Society 133:9, pages 2836-2839.
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