1-Fluoro-6,7-dihydro-5H-isoquinolin-8-one derivatives and the us

Compositions – Liquid crystal compositions – Containing nonsteryl liquid crystalline compound of...

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25229962, 546139, 546152, 546153, 546156, 349182, C09K 1934, C09K 1932, C07D21516, G02F 11337

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058740236

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BRIEF SUMMARY
In addition to nematic and cholesteric liquid crystals, optically active tilted smectic (ferroelectric) liquid crystals have also been used recently in commercial display devices.
Clark and Lagerwall have been able to show that the use of ferroelectric liquid crystals (FLCs) in very thin cells results in optoelectrical switching or display elements which have response times faster by a factor of up to 1000 compared with conventional TN ("twisted nematic") cells (see, for example, EP-A 0 032 362). On the basis of this and other favorable properties, for example the possibility of bistable switching and the virtually viewing angle-independent contrast, FLCs are fundamentally highly suitable for areas of application such as computer displays.
For the use of FLCs in electro-optical or fully optical components, either compounds are required which form tilted or orthogonal smectic phases and are themselves optically active, or ferroelectric smectic phases can be induced by doping compounds which, although forming such smectic phases, are not themselves optically active, with optically active compounds. The desired phase should be stable over the broadest possible temperature range.
In order to achieve good contrast in electro-optical components, a uniform planar alignment of the liquid crystals is necessary. Good alignment in the S.sub.A and S*.sub.C phase can be achieved, for example, if the phase sequence of the liquid-crystal mixture is, with decreasing temperature: large (greater than 10 .mu.m) or, even better, is fully compensated (see, for example, T. Matsumoto et al., pp. 468-470, Proc. of the 6th Int. Display Research Conf., Japan Display, Sept. 30-Oct. 2, 1986, Tokyo, Japan; M. Murakami et al., ibid. pp. 344-347). This is achieved by adding one or more optically active dopes which induce a right-hand helix to the chiral liquid-crystal mixture which has, for example, a left-hand helix in the N* phase, in such amounts that the helix is compensated.
A further prerequisite for the use of the SSFLCD effect (surface-stabilized ferroelectric liquid-crystal display) of Clark and Lagerwall for uniform planar alignment is that the pitch in the smectic C* phase is significantly greater than the thickness of the display element (Mol. Cryst. Liq. Cryst. 94 (1983), 213-134 and 114 (1984), 151-187). As in the case of the cholesteric pitch, this is achieved by using dopes having the opposite rotation of the helix. systems, which should be as short as possible, depends on the rotational the equation ##EQU1## Since the field strength E is determined by the electrode separation in the electro-optical component and by the applied voltage, the ferroelectric display medium must have low viscosity and a high spontaneous polarization to achieve a short response time.
Finally, in addition to thermal, chemical and photochemical stability, a small optical anisotropy .DELTA.n, preferably .apprxeq.0.13, and a low positive or preferably negative dielectric anisotropy .DELTA..epsilon. are required (see, for example, S. T. Lagerwall et al., "Ferroelectric Liquid Crystals for Displays", SID Symposium, Oct. Meeting 1985, San Diego, Calif., U.S.A.). The totality of these requirements can only be achieved by means of mixtures comprising a plurality of components. The base (or matrix) used preferably comprises compounds which if possible themselves already have the desired phase sequence I.fwdarw.N.fwdarw.S.sub.A .fwdarw.S.sub.C. Further components of the mixture are frequently added in order to reduce the melting point and to broaden the S.sub.C and usually also the N phase, to induce optical activity, for pitch compensation and to match the optical and dielectric anisotropy; further, the rotational viscosity, for example, should if possible not be increased.
Ferroelectric liquid-crystal displays can also be operated by utilizing the DHF (distorted helix formation) effect or the PSFLCD effect (pitch-stabilized ferroelectric liquid-crystal display, also known as SBF=short pitch bistable ferroelectric effect). The DHF effect has been descri

REFERENCES:
patent: 5695684 (1997-12-01), Kosaka et al.
patent: 5707547 (1998-01-01), Fujimoto et al.
patent: 5708173 (1998-01-01), Oku et al.
Ferroelectrics, 1993, vol. 148, p. 139 ff.

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