Abstract
This chapter aims to review the current state of the art and the future perspectives specifically concerning the use of liquid-crystalline (LC) monomers in UV-curable systems. More specifically, the effect of the LC monomer structure on the photopolymerization reaction, as well as on the topography/morphology of the cured networks is thoroughly discussed, also taking into account the eventual segregation phenomena of LC phases that may occur upon exposure to UV radiation. Furthermore, the final thermal, dielectric, viscoelastic and mechanical features of the UV-cured systems containing LC phases are described. In the final part of the chapter, some recent applications of UV-cured networks containing liquid-crystalline phases (i.e. hybrid organic inorganic nanocomposite thin films, stimuli-responsive materials, actuators, shape-memory materials, biomedical components) are presented and discussed.
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References
Allcock HR, Cameron GC (1994) Synthesis of photocrosslinkable chalcone-bearing polyphosphazenes. Macromolecules 27:3131–3135
Andersson H, Gedde UW, Hult A (1992) Preparation of ordered, crosslinked and thermally stable liquid crystalline poly(vinylether) films. Polymer 33:4014–4018
Broer DJ (1996) Networks formed by photoinitiated chain cross-linking. In: Crawford GP, Zumer S (eds) Liquid crystals in complex geometries, Taylor and Francis, London, pp 239–255
Broer DJ, Boven J, Mol GN, Challa G (1989) In-situ photopolymerization of oriented liquid-crystalline acrylates, 3. Oriented polymer networks from a mesogenic diacrylate. Makromol Chem 190:2255–2268
Broer DJ, Mol GN, Challa G (1991) In-situ photopolymerization of oriented liquid-crystalline acrylates, 5. Influence of the alkylene spacer on the properties of the mesogenic monomers and the formation and properties of oriented polymer networks. Makromol Chem 192:59–74
Buruiana T, Melinte V, Costin G, Buruiana EC (2011) Synthesis and properties of liquid crystalline urethane methacrylates for dental composite applications. J Polym Sci A Polym Chem 49:2615–2626
Cervera-Procas R, Sà nchez-Somolinos C, Serrano JL, Omenat A (2013) A polymer network prepared by the tyol-yne photocrosslinking of a liquid crystalline dendrimer. Macromol Rapid Commun 34:498–503
Chien CC, Liu JH (2014) Optical behaviors of flexible photonic films via the developed multiple UV-exposed fabrications. Macromol Rapid Commun 35:1185–1190
Crivello JV (1983) Photoinitiated cationic polymerization. Annu Rev Mater Sci 13:173–190
de Gennes PG (1975) The physics of liquid crystals, Clarendon, Oxford
Decker C (1996) Photoinitiated crosslinking polymerization. Prog Polym Sci 21:593–650
Decker C (2002) Kinetic study and new applications of UV radiation curing. Macromol Rapid Commun 23:1067–1093
Fleischmann EK, Forst FR, Zentel R (2014) Liquid-crystalline elastomer fibers prepared in a microfluidic device. Macromol Chem Phys 215:1004–1011
Flory PJ (1956) Phase equilibria in solutions of rod-like particles. Proc R Soc Lond A 234:73–89
Forney BS, Guymon CA (2011) Fast deswelling kinetics of nanostructured poly(N-isopropylacrylamide) photopolymerized in a lyotropic liquid crystal template. Macromol Rapid Commun 32:765–769
Fréchet JMJ, Tomalia DA (2001) Dendrimers and other dendritic polymers. Wiley, Chichester
Giamberini M, Malucelli G (2013) Hybrid organic-inorganic UV-cured films containing liquid-crystalline units. Thin Solid Films 548:150–156
Guymon CA, Hoggan EN, Clark NA, Rieker TP, Walba DM, Bowman CN (1997) Effect of monomers structure on their organization and polymerisation in a smectic liquid crystal. Science 275:57–59
He L, Zhang S, Jin S, Qi Z (1995) In-situ photopolymerization of an oriented chiral liquid crystal acrylate in an electric field. Polym Bull 34:7–12
Hellermark C, Gedde UW, Hult A (1992) Synthesis and characterization of poly(11-(4′-cyano-trans-4-stilbenyloxy)undecanyl vinyl ether). Polym Bull 28:267–274
Hoyle CE, Chawla CP (1995) Effect of repetition rate on the pulsed-laser-initiated polymerization of a liquid crystalline monomer. Macromolecules 28:1946–1951
Hoyle CE, Watanabe T (1994) Kinetics of polymerization of liquid-crystalline monomers: an exotherm and light scattering analysis. Macromolecules 27:3790–3796
Hoyle CE, Kang D, Jariwala C, Griffin AC (1993) Efficient polymerization of a semi-fluorinated liquid crystalline methacrylate. Polymer 34:3070–3075
Hoyle CE, Mathias LJ, Jariwala C, Sheng D (1996) Photopolymerization of a semifluorinated difunctional liquid crystalline monomer in a smectic phase. Macromolecules 29:3182–3187
Hsu SH, Chen RS, Chang YL, Chen MH, Cheng KC, Su WF (2012) Biphenyl liquid crystalline epoxy resina s a low-shrinkage resin-based dental restorative nanocomposite. Acta Biomater 8:4151–4161
Kaniappan K, Murugavel SC (2009) Photocrosslinkable phosphorus containing homo- and copolyesters: synthesis, characterization, and photosensitive properties. J Appl Polym Sci 111:1606–1614
Kawatsuki N, Goto K, Yamamoto T (2001) Photoinduced anisotropy and photoalignment of nematic liquid crystals by a novel polymer liquid crystal with a coumarin-containing side group. Liq Cryst 28:1171–1176
Kihara H, Miura T (2004) Morphological self-control of a phase-separated polymer during photopolymerization in a liquid-crystalline medium. Polymer 45:6357–6363
Kihara H, Miura T (2005) Morphology of a hydrogen-bonded LC polymer prepared by photopolymerization-induced phase separation under an isotropic phase. Polymer 46:10378–10382
Kihara H, Miura T, Kishi R (2002) Morphological studies of LC polymer networks prepared by photopolymerization of (LC monomer/LC) blends. Polymer 43:4523–4530
Kishore G, Kishore K (1995) Synthesis and characterization of photo-crosslinkable main-chain liquid-crystalline polymers containing bis(benzylidene)cycloalkanone units. Polymer 36:1903–1910
Malucelli G, Iannelli P, Giamberini M (2009) Freezing the orientation of a nematic stretched elastomer by photocrosslinking. Polymer 50:1948–1956
McConney ME, Martinez A, Tondiglia VP, Lee KM, Langley D, Smalyukh II, White TJ (2013) Topography from topology: photoinduced surface features generated in liquid crystal polymer networks. Adv Mater 25:5880–5885
Muthusamy A, Balaji K, Murugavel SC (2013) Synthesis, thermal, and photocrosslinking studies of thermotropic liquid crystalline poly(benzylidene-ether)esters containing α, β-unsaturated ketone moiety in the main chain. J Polym Sci A Polym Chem 51:1707–1715
Ogiri S, Ikeda M, Kanazawa A, Shiono T, Ikeda T (1999) Polymerization of liquid-crystalline monomers having a Schiff-base structure. Polymer 40:2145–2150
Percec V, Kawasumi M (1991) Liquid crystalline polyethers based on conformational isomerism. 18. Polyethers based on a combined mesogenic unit containing rigid and flexible groups: 1-(4-hydroxy-4′-biphenyl)-2-(4-hydroxyphenyl)butane. Macromolecules 24:6318–6324
Percec V, Tomazos D (1992) Molecular engineering of side-chain liquid-crystalline polymers by living cationic polymerization. Adv Mater 4:548–561
Percec V, Tsuda Y (1990) Liquid-crystalline polyethers based on conformational isomerism. 10. Synthesis and determination of the virtual mesophases of polyethers based on 1-(4-hydroxyphenyl)-2-(2-methyl-4-hydroxyphenyl)ethane and .alpha.,.omega.-dibromoalkanes containing from 17 to 20 methylene unit. Macromolecules 23:3509–3520
Percec V, Yourd R (1989) Liquid crystalline polyethers based on conformational isomerism. 2. Thermotropic polyethers and copolyethers based on 1-(4-hydroxyphenyl)-2-(2-methyl-4-hydroxyphenyl)ethane and flexible spacers containing odd number of methylene units. Macromolecules 22:524–537
Percec V, Shaffer TD, Nava H (1984) Functional polymers and sequential copolymers by phase transfer catalysis. 10. Polyethers of mesogenic bisphenols: a new class of main-chain liquid crystalline polymers. J Polym Sci Polym Lett Ed 22:637–647
Percec V, Nava H, Jonsson H (1987) Functional polymers and sequential copolymers by phase transfer catalysis. 24. The influence of molecular weight on the thermotropic properties of a random copolyether based on 1,5-dibromopentane, 1,7-dibromoheptane, and 4,4′-dihydroxy-α-methylstilbene. J Polym Sci A Polym Chem 25:1943–1965
Pogue RT, Ullet JS, Chartoff RP (1999) Determination of the effects of cure conditions on the photopolymerization of liquid crystalline monomers using differential photo-calorimetry. Thermochim Acta 339:21–27
Ravikrishnan A, Sudhakar P, Kannan P (2010) Stilbene-based liquid crystalline and photocrosslinkable polynaphthylphosphate esters. J Mater Sci 45:435–442
Roviello A, Sirigu A (1975) Mesophasic structures in polymers. A preliminary account on the mesophases of some poly-alkanoates of p, p′-di-hydroxy-α, α′-di-methyl benzalazine. J Polym Sci C Polym Lett 13:455–463
Roviello A, Sirigu A (1982) Odd–even effect in polymeric liquid crystals. Makromol Chem 183:895–904
Sakthivel P, Kannan P (2006) Thermotropic liquid crystalline-cum-photocrosslinkable poly(benzylidene arylphosphate ester)s containing the cyclopentanone moiety. Liq Cryst 33:341–351
Schultz JW, Chartoff RP (1998) Photopolymerization of nematic liquid crystal monomers for structural applications: molecular order and orientation dynamics. Polymer 2:319–325
Shaffer TD, Percec V (1985) Functional polymers and sequential copolymers by phase transfer catalysis, 13. Thermotropic copolyethers from 4,4′-dihydroxy-α-methylstilbene and α, ω-dibromoalkanes. Makromol Chem Rapid Commun 6:97–104
Stroganov V, Ryabchun A, Bobrovsky A, Shibaev V (2012) A novel type of crown ether-containing metal ions optical sensors based on polymer-stabilized cholesteric liquid crystalline films. Macromol Rapid Commun 33:1875–1881
Sun J, Wu TS (2014) Recent advances in polymer network liquid crystal spatial light modulators. J Polym Sci B Polym Phys 52:183–192
Sung SJ, Jung EA, Sim K, Kim DH, Cho KY (2013) Phase separation structure and interfacial properties of lattice-patterned liquid crystal-polymer composites prepared from multicomponent prepolymers. Polym Int 63:214–220
Ullett JS, Chartoff RP, Schultz JW, Bhatt JC, Dotrong M, Pogue RT (1996) Solid freeform fabrication proceedings, pp 471–479
Williamson SE, Kang D, Hoyle CE (1996) Phase effects on the polymerization of a styloxy cholesteric liquid crystalline monomer. Macromolecules 29:8656–8665
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Malucelli, G. (2015). UV-Cured Networks Containing Liquid Crystalline Phases: State of the Art and Perspectives. In: Thakur, V., Kessler, M. (eds) Liquid Crystalline Polymers. Springer, Cham. https://doi.org/10.1007/978-3-319-20270-9_8
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DOI: https://doi.org/10.1007/978-3-319-20270-9_8
Publisher Name: Springer, Cham
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