Modification of the twist angle in chiral nematic polymer films by photoisomerization of the chiral dopant

Witte, P. van de; Neuteboom, Edda E.; Brehmer, Martin; Lub, Johan

doi:10.1063/1.370548

Cited by 37 publications

(17 citation statements)

References 14 publications

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“…In layers containing small amounts of the isomerizable compound, the twist can be adjusted on a subpixel level. [35] Such twisted nematic films can find application as viewing-angle-improvement layers, as patterned retarders, or as polarizing glasses. [1] Reflective polarizers can be prepared by irradiating the monomeric film with an intensity gradient over the film thickness.…”

Section: Loyloxypropyloxy)benzoyloxy)-2-methylphenyl 4-(3-acryloyloxymentioning

confidence: 99%

Synthesis and Properties of Photoisomerizable Derivatives of Isosorbide and Their Use in Cholesteric Filters

Lub

Nijssen

Wegh

et al. 2005

Adv Funct Materials

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This paper describes the synthesis of photoisomerizable derivatives of isosorbide. These derivatives contain a stilbene or cinnamate moiety and can therefore be used as photoisomerizable chiral compounds in cholesteric liquid‐crystalline mixtures. The reflection wavelength of cholesteric layers made from these mixtures is increased by UV irradiation due to the fact that the Z‐isomers of these derivatives exhibit a lower helical twisting power than the corresponding E‐isomers. The cinnamate derivatives are very suitable for use in cholesteric color filters that find application in liquid‐crystal displays.

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Section: Loyloxypropyloxy)benzoyloxy)-2-methylphenyl 4-(3-acryloyloxymentioning

confidence: 99%

Synthesis and Properties of Photoisomerizable Derivatives of Isosorbide and Their Use in Cholesteric Filters

Lub

Nijssen

Wegh

et al. 2005

Adv Funct Materials

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“…They can be used in liquid crystal displays and in chiral polymer films to improve viewing angles in display applications. [1][2][3] In each case it is essential that a high degree of twist is imparted from just a small amount of chiral dopant, so as not to perturb other material properties, and, in some cases, because the dopant is sparingly soluble in the liquid crystal host. The production of new chiral dopant molecules can be a long and costly process, and the HTP of the molecule is unknown until it can be determined by experiment after it has been synthesized and purified.…”

Section: Introductionmentioning

confidence: 99%

Predictions of molecular chirality and helical twisting powers: A theoretical study

Earl

Wilson

2003

The Journal of Chemical Physics

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A theoretical study of a number of chiral molecules has been undertaken using a molecular Monte Carlo simulation approach coupled with calculations of molecular chirality based on a chirality order parameter. Results for a variety of TADDOL (α,α,α′,α′-tetraaryl-1,3-dioxolan-4,5dimethanol) derivatives show good agreement with experimental findings for the sign, magnitude, and the temperature dependence of the helical twisting power (HTP). For a photochromic chiral dopant with variable HTP we are able to model the reduction in the HTP when photoisomerization occurs. Our studies on a liquid crystalline material with a single chiral center have reproduced a temperature dependent twist inversion in the material. We discuss the temperature and solvent dependence of the helical twisting power and argue that in all the systems studied here, preferential selection of certain molecular conformations at different temperatures and in different solvents are able to explain the observed experimental behavior of the HTP.

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“…Chiral molecules with very high HTPs > 100 µm −1 have significant technological applications. They can be used in liquid crystal displays and in chiral polymer films to improve the viewing angle of a display [106][107][108]. There are also possible applications in polymer-stabilised blue phases [6], which may provide a new generation of devices: fast light modulators and tunable photonic crystals.…”

Section: Helical Twisting Powersmentioning

confidence: 99%

Progress in computer simulations of liquid crystals

Wilson

2005

International Reviews in Physical Chemistry

138

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This article reviews some of the recent progress in the simulation of liquid crystals across a range of length and time scales. Simulators now have an extensive range of models at their disposal, ranging from fully atomistic studies where each atom is represented in a simulation, via hard or soft anisotropic potentials, to lattice models and director-based simulation methods. Each of these provide access to different phenomena. The progress towards accurate atomistic modelling of nematics is discussed in detail, pointing to improvements in force fields made recently and discussing the progress towards accurate prediction of material properties. Three material properties are discussed in detail: elastic constants, rotational viscosity and helical twisting powers. The simulation methods that can be employed to extract such properties are reviewed and the insights provided by recent results from atomistic and coarse-grained models are discussed. The article points also to the recent success of coarse-grained modelling in helping to understand the structure of complex macromolecular liquid crystals: liquid crystal polymers and liquid crystal dendrimers in which the macromolecules contain different types of interaction site. Finally, it is worth noting that throughout Nature liquid crystals occur as the archetypal self-assembled materials; able to form well-defined self-organized structures, which are often ordered at the nanoscale. With this in mind, some perspectives on the future use of these materials are presented, with suggestions for how liquid crystal simulation can be used to help in the design of the next generation of nanoscale devices.

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Modification of the twist angle in chiral nematic polymer films by photoisomerization of the chiral dopant

Cited by 37 publications

References 14 publications

Synthesis and Properties of Photoisomerizable Derivatives of Isosorbide and Their Use in Cholesteric Filters

Synthesis and Properties of Photoisomerizable Derivatives of Isosorbide and Their Use in Cholesteric Filters

Predictions of molecular chirality and helical twisting powers: A theoretical study

Progress in computer simulations of liquid crystals

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