Compositions – Liquid crystal compositions – Containing nonsteryl liquid crystalline compound of...
Reexamination Certificate
2000-04-18
2001-11-13
Wu, Shean C. (Department: 1756)
Compositions
Liquid crystal compositions
Containing nonsteryl liquid crystalline compound of...
C252S299630, C252S299660, C252S299670
Reexamination Certificate
active
06315922
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a nematic liquid crystal composition. More specifically, the present invention relates to a liquid crystal composition for an active matrix (AM) mode and a liquid crystal display element (LCD) using this liquid crystal composition.
2. Description of the Related Art
A liquid crystal display element (AM-LCD) of an active matrix mode enables highly fine display, and therefore it attracts attentions as the most likely candidate of LCD and is applied to display faceplates for monitors, note type personal computers, digital still cameras, digital video cameras and the like. Characteristics required to a liquid crystal composition for AM-LCD include the following (1) to (5):
(1) In order to expand a temperature range in which the liquid crystal display element can be used, the liquid crystal composition shows a nematic phase in as broad temperature range as possible (the upper limit temperature of the nematic phase is elevated as much as possible, and the lower limit temperature of the nematic phase is lowered as much as possible).
(2) In order to accelerate the response speed of the liquid crystal display element, the liquid crystal composition is reduced in a viscosity as much as possible.
(3) In order to raise the contrast of the liquid crystal display element, the optical anisotropy value (&Dgr;n) of the liquid crystal composition can take a suitable vale according to the cell thickness (d) of the liquid crystal display element.
(4) In order to raise the contrast of the liquid crystal display element, the resistivity value of the liquid crystal composition is elevated, and the voltage-holding ratio of a cell into which the liquid crystal composition is charged is elevated. In particular, the voltage-holding ratio in a high temperature area is elevated. Measurement of the voltage-holding ratio in a high temperature area corresponds to an acceleration test for making sure of the durability of the liquid crystal composition.
(5) In order to miniaturize a battery which is a driving power source for the liquid crystal display element, the liquid crystal composition is reduced in a threshold voltage.
In light of such backgrounds, disclosed in Japanese Patent Application Laid-Open No. 73857/1996 is a liquid crystal composition which has a high voltage-holding ratio and is reduced in a threshold voltage and which has a suitably large optical anisotropy. Also, disclosed in Japanese Patent Application Laid-Open No. 31460/1997 is a liquid crystal composition which, in particular, has a low threshold voltage, an excellent compatibility at a low temperature and a broad temperature range of a nematic phase while satisfying various characteristics required to a liquid crystal composition for AM-LCD. Further, disclosed in International Publication WO96/11897 are a novel liquid crystal compound which has a large dielectric constant anisotropy and is notably low in a viscosity as a liquid crystal compound for low voltage driving in various modes including an AM mode and an STN mode, and a liquid crystal composition containing the same. A liquid crystal composition using a compound which is analogous to the compound of the present invention represented by Formula (1-1) is described in Japanese Patent Application Laid-Open No. 251186/1998.
Driving power sources for note type personal computers, digital still cameras, digital video cameras and the like depend on batteries. In order to use these batteries for long time by one charging, a power consumption of LCD has to be reduced. In recent years, these batteries have been further miniaturized and come to be elongated in use time by one charging. Accordingly, liquid crystal compositions have come to be desired to be reduced in a threshold voltage while maintaining the characteristics shown in the items (1) to (4) described above.
In order to reduce a threshold voltage of a liquid crystal composition, a liquid crystal compound having a large dielectric constant anisotropy has to be used. If a liquid crystal compound having a large dielectric constant anisotropy is used to prepare a liquid crystal composition, the liquid crystal composition is increased in a viscosity. Accordingly, a liquid crystal display element using a liquid crystal composition having a low threshold voltage is slow as well in a response speed.
As proposed by E. Jakeman et al [Phys. Lett., A, 39 (1972) 69], this is because a response speed is proportional to a square of a cell gap, and a cell gap of a cell constituting a liquid crystal display element can be reduced in order to accelerate the response speed. As shown in the item (3) described above, however, in a first minimum condition of a TN mode, a value shown by a product (&Dgr;n·d) of a cell gap of a cell constituting a liquid crystal display element and optical anisotropy of a liquid crystal composition is set to about 0.4 to about 0.5 in order to obtain a high contrast, and therefore if the cell gap is reduced, the optical anisotropy of the liquid crystal composition has to be inevitably increased.
The composition disclosed in Japanese Patent Application Laid-Open No. 73857/1996 described above has the defects that as shown in the comparative examples in the present invention, while the threshold voltage is low and the optical anisotropy is suitably large, the nematic phase has a too low upper limit temperature and the voltage-holding ratio in a high temperature area is low and the defects that while the optical anisotropy is suitably large and the nematic phase has a high upper limit temperature, the threshold voltage is too high and the voltage-holding ratio in a high temperature area is low.
A composition disclosed in Japanese Patent Application Laid-Open No. 31460/1997 has the defects that as shown in the comparative examples in the present invention, the optical anisotropy is small and the threshold voltage is high and that the nematic phase has a low upper limit temperature. Usually, a compound having a cyano group has a low voltage-holding ratio and therefore can not be used for a liquid crystal composition for AM-LCD.
A liquid crystal composition for AM-LCD which does not contain a compound having a cyano group at a terminal is disclosed in International Publication WO96/11897. This composition has the defects that as shown in the comparative examples in the present invention, the threshold voltage is not sufficiently lower and the optical anisotropy is small.
Compounds having three phenylene rings and one —CF
2
O— bonding group in a molecule are disclosed in Japanese Patent Application Laid-Open No. 251186/1998, but among the physical property values described in the examples thereof in the compositions comprising the F base compound having a high holding rate, the threshold voltage falls in a range of 1.29 V to 2.37 V and is relatively high.
As described above, various investigations of liquid crystal compositions have been carried out, but satisfactory liquid crystal compositions for AM-LCD are not obtained. That is, required are liquid crystal compositions for AM-LCD which maintain the characteristics shown in the items (1) and (2) described above but have a low threshold voltage required for reducing a power consumption while maintaining a high voltage-holding ratio in a high temperature area and which are provided with a large optical anisotropy as a reduction in the gap of the cell comes to be required in order to accelerate the response speed.
SUMMARY OF THE INVENTION
An object of the present invention is to provide a liquid crystal composition which satisfies general characteristics required to AM-LCD and which has particularly a high voltage-holding ratio in a high temperature area, a sufficiently low threshold voltage and a large optical anisotropy.
Intensive investigations repeated by the present inventors in order to solve these problems have resulted in finding that a liquid crystal composition capable of achieving the object of the present invention can be obtained by combining a conventional compound havi
Kubo Yasuhiro
Nakagawa Etsuo
Takeshita Fusayuki
Chisso Corporation
Wenderoth , Lind & Ponack, L.L.P.
Wu Shean C.
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