Electrically tunable laser based on oblique heliconical cholesteric liquid crystal

Xiang, Jie; Varanytsia, Andrii; Minkowski, Fred; Paterson, Daniel A.; Storey, John M. D.; Imrie, Corrie T.; Lavrentovich, Oleg D.; Palffy‐Muhoray, Peter

doi:10.1073/pnas.1612212113

Cited by 152 publications

(78 citation statements)

References 33 publications

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“…Mixtures of dimers lowered the operating temperature, but at the same time suffered from increased viscosity significantly enlarging the switching time12. Recently, a large range tuning of helical pitch in CLC mixtures made of similar LC dimers and with an oblique helicoidal director configuration has been demonstrated to be useful for electrically tunable reflective optical devices covering range of optical spectrum from UV to near IR313233.…”

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confidence: 99%

Giant Flexoelectro-optic Effect with Liquid Crystal Dimer CB7CB

Varanytsia

Chien

2017

Sci Rep

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We demonstrate a giant flexoelectro-optic behavior of liquid crystal dimer CB7CB. Flexoelectric properties of CB7CB experimentally characterized by measured angle of an in-plane rotation of helical axis (HA) in polymer stabilized uniform lying helix cholesteric liquid crystal. The 45° rotation of HA providing full intensity modulation of transmitted through a pair of crossed polarizers light, is achieved with 4.5 V/μm with a sub-millisecond electro-optic switching time. Reported properties enable application of CB7CB in applications of the flexoelectric effect in fast switching photonic and electro-optic devices.

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confidence: 99%

Giant Flexoelectro-optic Effect with Liquid Crystal Dimer CB7CB

Varanytsia

Chien

2017

Sci Rep

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“…The electrical tunability of the pitch of heliconical cholesteric phase has been utilized to fabricate and demonstrate electric‐field‐driven tunable laser . Here it should be noted that because of the spatial periodicity of the dielectric permittivity, CLCs doped with a fluorescent dye and pumped optically are capable of mirrorless lasing.…”

Section: Control Of the Helical Axis In Heliconical Clcsmentioning

confidence: 99%

Stimuli‐Driven Control of the Helical Axis of Self‐Organized Soft Helical Superstructures

2018

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Supramolecular and macromolecular functional helical superstructures are ubiquitous in nature and display an impressive catalog of intriguing and elegant properties and performances. In materials science, self-organized soft helical superstructures, i.e., cholesteric liquid crystals (CLCs), serve as model systems toward the understanding of morphology- and orientation-dependent properties of supramolecular dynamic helical architectures and their potential for technological applications. Moreover, most of the fascinating device applications of CLCs are primarily determined by different orientations of the helical axis. Here, the control of the helical axis orientation of CLCs and its dynamic switching in two and three dimensions using different external stimuli are summarized. Electric-field-, magnetic-field-, and light-irradiation-driven orientation control and reorientation of the helical axis of CLCs are described and highlighted. Different techniques and strategies developed to achieve a uniform lying helix structure are explored. Helical axis control in recently developed heliconical cholesteric systems is examined. The control of the helical axis orientation in spherical geometries such as microdroplets and microshells fabricated from these enticing photonic fluids is also explored. Future challenges and opportunities in this exciting area involving anisotropic chiral liquids are then discussed.

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“…Different LC mesophase are principally characterised by their degree of positional order; the nematic LC phase possesses long range orientational order, whereas smectic phases also exhibit positional order in one dimension. The discovery of nematic phases in which the average orientational order varies periodically – so called modulated nematics – has recently attracted significant interest . The twist‐bend nematic phase (N TB ) exhibits a heliconical precession of the nematic director through space with a periodic length scale of a few tens of nanometers .…”

Section: Transition Temperatures (T °C) and Associated Enthalpies Omentioning

confidence: 99%

Utilising Saturated Hydrocarbon Isosteres of para Benzene in the Design of Twist‐Bend Nematic Liquid Crystals

Al-Janabi

Mandle

2020

ChemPhysChem

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The nematic twist-bend (N TB ) liquid crystal phase possesses a local helical structure with a pitch length of a few nanometres and is the first example of spontaneous symmetry breaking in a fluid system. All known examples of the N TB phase occur in materials whose constituent mesogenic units are aromatic hydrocarbons. It is not clear if this is due to synthetic convenience or a bona fide structural requirement for a material to exhibit this phase of matter. In this work we demonstrate that materials consisting largely of saturated hydrocarbons can also give rise to this mesophase.Furthermore, we find that replacement of 1,4-disubstituted benzene with trans 1,4-cyclohexane or 1,4-cubane does not especially alter the transition temperatures of the resulting material nor does it appear to impact upon the heliconical tilt angle. Each of these three units is effectively rigid and linear; calculating the probability distribution of bend angles for each compound reveals that the isosteric groups has little impact on the overall molecular shape, demonstrating the shape-driven nature of the N TB phase. Conversely, we find that incorporation of 2,6-disubstituted cuneane -a saturated hydrocarbon which is rigid but not linear -supresses the formation of the N TB phase.Liquid crystals are a collection of states of matter (mesophases) which possess orientational and/or positional order not found in the liquid state. Different LC mesophase are principally characterised by their degree of positional order; the nematic LC phase possesses long range orientational order, whereas smectic phases also exhibit positional order in one dimension. The discovery of nematic phases in which the average orientational order varies periodically -so called modulated nematics -has recently attracted significant interest. [1][2][3][4][5][6] The twist-bend nematic phase (N TB ) exhibits a heliconical precession of the nematic director through space with a periodic length scale of a few tens of nanometers. [7][8][9] This phase is typically found in materials comprising two or more mesogenic units which are mutually appended by a central spacer of such a length as to impart a gross bent shape. The incidence of the N TB phase is intimately linked to molecular shape, specifically the bend angle between adjacent mesogenic units. [10][11][12][13][14] The mesogenic units themselves are almost exclusively constructed from multiple benzene rings, and to date (as far as the authors are aware) the spacer is always appended to an aromatic ring rather than a saturated hydrocarbon; [15][16][17][18][19][20][21][22][23] it is not clear if this is a consequence of synthetic convenience or a real structural requirement for materials to exhibit this phase of matter.

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Electrically tunable laser based on oblique heliconical cholesteric liquid crystal

Cited by 152 publications

References 33 publications

Giant Flexoelectro-optic Effect with Liquid Crystal Dimer CB7CB

Giant Flexoelectro-optic Effect with Liquid Crystal Dimer CB7CB

Stimuli‐Driven Control of the Helical Axis of Self‐Organized Soft Helical Superstructures

Utilising Saturated Hydrocarbon Isosteres of para Benzene in the Design of Twist‐Bend Nematic Liquid Crystals

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