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TW202016262A - Liquid crystal composition and its display device capable of reducing basic voltage value, driving voltage and power consumption - Google Patents

Liquid crystal composition and its display device capable of reducing basic voltage value, driving voltage and power consumption Download PDF

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TW202016262A
TW202016262A TW108138166A TW108138166A TW202016262A TW 202016262 A TW202016262 A TW 202016262A TW 108138166 A TW108138166 A TW 108138166A TW 108138166 A TW108138166 A TW 108138166A TW 202016262 A TW202016262 A TW 202016262A
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liquid crystal
crystal composition
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carbon atoms
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徐海彬
朱貝貝
賀笛
陳前麗
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大陸商江蘇和成顯示科技有限公司
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Abstract

The invention discloses a liquid crystal composition, comprising: one or more compounds of general formula II; one or more compounds of general formula M; one or more compounds of general formula A-1; and one or more compounds of general formula A-2. The invention also discloses a display device containing the liquid crystal composition. The liquid crystal composition provided by the present invention has greater optical anisotropy, greater dielectric anisotropy, lower rotational viscosity, better low-temperature storage stability, larger Kave value, and larger VHR (initial) and VHR (UV) and VHR (high temperature) (that is, better reliability) while maintaining an appropriate clear and brightness, so the liquid crystal display device comprising the liquid crystal composition of the present invention has less light scattering and higher contrast, and is particularly suitable for liquid crystal display elements driven by active matrix thin film transistors (AM-TFTs).

Description

液晶組合物及其顯示器件Liquid crystal composition and its display device

本發明涉及液晶材料領域,具體涉及液晶組合物及其顯示器件。The invention relates to the field of liquid crystal materials, in particular to liquid crystal compositions and display devices.

液晶顯示元件可以在以鐘錶、電子計算器為代表的各種家庭用電器、測定機器、汽車用面板、文字處理機、電腦、印表機、電視等中使用。根據顯示模式的類型分為PC(phase change,相變)、TN(twist nematic,扭曲向列)、STN(super twisted nematic,超扭曲向列)、ECB(electrically controlled birefringence,電控雙折射)、OCB(optically compensated bend,光學補償彎曲)、IPS(in-plane switching,共面轉變)、VA(vertical alignment,垂直配向)等類型。根據元件的驅動方式分為PM(passive matrix,被動矩陣)型和AM(active matrix,主動矩陣)型。PM分為靜態(static)和多路(multiplex)等類型。AM分為TFT(thin film transistor,薄膜電晶體)、MIM(metal insulator metal,金屬-絕緣層-金屬)等類型。TFT的類型有非晶矽(amorphous silicon)和多晶矽(polycrystal silicon)。後者根據製造工藝分為高溫型和低溫型。液晶顯示元件根據光源的類型分為利用自然光的反射型、利用背光的透過型、以及利用自然光和背光兩種光源的半透過型。The liquid crystal display element can be used in various household electrical appliances such as clocks and electronic calculators, measuring devices, automobile panels, word processors, computers, printers, and televisions. According to the type of display mode, it is divided into PC (phase change, phase change), TN (twist nematic, twisted nematic), STN (super twisted nematic, super twisted nematic), ECB (electrically controlled birefringence, electronically controlled birefringence), Types such as OCB (optically compensated bend), IPS (in-plane switching), VA (vertical alignment), etc. According to the driving method of the device, it can be divided into PM (passive matrix) type and AM (active matrix) type. PM is divided into static (static) and multiplex (multiplex) and other types. AM is divided into TFT (thin film transistor, thin film transistor), MIM (metal insulator metal, metal-insulating layer-metal) and other types. The types of TFTs are amorphous silicon and polycrystal silicon. The latter is divided into high-temperature type and low-temperature type according to the manufacturing process. Liquid crystal display elements are classified into a reflective type using natural light, a transmissive type using backlight, and a semi-transmissive type using two light sources of natural light and backlight according to the type of light source.

在低信息量中,一般採用無源方式驅動,但是隨著信息量的加大,顯示尺寸和顯示路數的增多,串擾和對比度降低現象變得嚴重,因此一般採用有源矩陣(AM)方式驅動,目前較多的採用薄膜電晶體(TFT)來進行驅動。在AM-TFT元件中,TFT開關器件在二維網格中定址,在處於導通的有限時間內對圖元電極進行充值,之後又變成截止狀態,直至下一週期中再被定址。因此,在兩個定址週期之間,不希望圖元點上的電壓發生改變,否則圖元點的透過率會發生改變,導致顯示的不穩定。圖元點的放電速度取決於電極容量和電極間介電材料的電阻率。因此,要求液晶材料具有較高的電阻率,同時要求液晶材料具有合適的光學各向異性Δn(Δn值一般在0.08-0.13左右),以及較低的閾值電壓,以達到降低驅動電壓、降低功耗的目的;還要求其具有較低的粘度,以滿足快速回應的需要。這類液晶組合物已經被很多文獻報導,例如WO9202597、WO9116398、WO9302153、WO9116399、CN1157005A等。In the low information volume, the passive mode is generally used for driving, but with the increase of the information volume, the display size and the number of display channels increase, and the phenomenon of crosstalk and contrast reduction becomes serious, so the active matrix (AM) mode is generally used for driving At present, thin-film transistors (TFTs) are mostly used for driving. In the AM-TFT element, the TFT switching device is addressed in a two-dimensional grid, recharges the picture element electrode within a limited time of on, and then turns off again until it is addressed in the next cycle. Therefore, between two addressing cycles, the voltage on the pixel point is not expected to change, otherwise the transmittance of the pixel point will change, resulting in unstable display. The discharge rate of the pixel point depends on the electrode capacity and the resistivity of the dielectric material between the electrodes. Therefore, the liquid crystal material is required to have a high resistivity, and the liquid crystal material is required to have a suitable optical anisotropy Δn (Δn value is generally around 0.08-0.13), and a lower threshold voltage to achieve lower driving voltage and lower power The purpose of consumption; it is also required to have a lower viscosity to meet the needs of rapid response. Such liquid crystal compositions have been reported in many literatures, such as WO9202597, WO9116398, WO9302153, WO9116399, CN1157005A, and so on.

研究表明,影響液晶顯示元件的對比度的最主要因素為液晶材料的漏光,而影響漏光的主要因素是光散射(LC Scattering),而LC Scattering與平均彈性常數Kave 的關係式如下: LC Scattering ∝

Figure 02_image003
, 其中,d表示液晶盒的間距,ne 表示非尋常光折射率,並且no 表示尋常光折射率。由該關係式可知,LC Scattering與Kave 成反比例,在提高Kave 的情況下,可以降低液晶材料的漏光。Studies have shown that the most important factor affecting the contrast of liquid crystal display elements is light leakage of liquid crystal materials, and the main factor affecting light leakage is light scattering (LC Scattering), and the relationship between LC Scattering and the average elastic constant K ave is as follows: LC Scattering ∝
Figure 02_image003
, Where d represents the pitch of the liquid crystal cell, n e represents the extraordinary refractive index, and n o represents the ordinary refractive index. From this relationship, it can be seen that LC Scattering is inversely proportional to K ave , and when K ave is increased, light leakage of the liquid crystal material can be reduced.

此外,對比度(CR)與亮度(L)的關係式如下: CR=L255 /L0 ×100%, 其中,L255 為開態亮度,L0 為關態亮度。可以看出,顯著影響CR的應該是L0 的變化。關態下,L0 與液晶分子的介電無關,與液晶材料本身的LC Scattering相關,LC Scattering愈小,L0 也愈小,CR從而也就會顯著提高。In addition, the relationship between contrast (CR) and brightness (L) is as follows: CR=L 255 /L 0 ×100%, where L 255 is the on-state brightness and L 0 is the off-state brightness. It can be seen that it is the change in L 0 that should significantly affect CR. In the off state, L 0 has nothing to do with the dielectric of the liquid crystal molecules, and it is related to the LC Scattering of the liquid crystal material itself. The smaller the LC Scattering, the smaller the L 0 and CR will be significantly improved.

含有介電各向異性的絕對值大的液晶組合物的液晶顯示元件能夠降低基礎電壓值、降低驅動電壓,並且能進一步降低消耗電功率。A liquid crystal display element containing a liquid crystal composition having a large absolute value of dielectric anisotropy can lower the base voltage value, lower the driving voltage, and can further reduce power consumption.

含有具有較低的閾值電壓的液晶組合物的液晶顯示元件能夠有效地降低顯示的功耗,特別是在消耗品,類似手機、平板電腦等可擕式電子產品有更長的續航時間。然而對於具有較低的閾值電壓的液晶組合物(一般含有大介電極性基團),其液晶分子的有序度低,而反映液晶分子有序度的Kave 值也會降低,從而影響到液晶材料的漏光和對比度,兩者通常難以兼顧。A liquid crystal display element containing a liquid crystal composition with a lower threshold voltage can effectively reduce the power consumption of display, especially in consumables, such as mobile phones, tablet computers and other portable electronic products have a longer battery life. However, for liquid crystal compositions with a lower threshold voltage (generally containing large dielectric groups), the order of liquid crystal molecules is low, and the K ave value, which reflects the order of liquid crystal molecules, is also reduced, which affects the liquid crystal. Light leakage and contrast of materials are usually difficult to balance.

粘度小的液晶組合物可以提高液晶顯示元件回應速度。當液晶顯示元件的回應速度快時,其可以適用於動畫顯示。另外,向液晶顯示元件的液晶盒內注入液晶組合物時,可以縮短注入時間,能夠提高作業性。The low viscosity liquid crystal composition can increase the response speed of the liquid crystal display element. When the response speed of the liquid crystal display element is fast, it can be suitable for animation display. In addition, when the liquid crystal composition is injected into the liquid crystal cell of the liquid crystal display element, the injection time can be shortened, and the workability can be improved.

現有技術中公開了具有較低功耗、較快回應的液晶組合物,如專利文獻CN102858918A,但現有技術中的液晶組合物存在環保問題(如含氯化合物的使用)、使用壽命短(如對UV或熱的穩定性差)、對比度低(如日光下顯示幕幕泛白),以及無法兼顧在液晶電視、平板電腦等要求適當的光學各向異性、適當的介電各向異性、高的電壓保持率、良好的抗UV穩定性及高溫穩定性的性能均衡問題,不能同時滿足各方面指標。The prior art discloses a liquid crystal composition with lower power consumption and faster response, such as patent document CN102858918A, but the liquid crystal composition in the prior art has environmental problems (such as the use of chlorine-containing compounds) and a short service life (such as UV or thermal stability is poor), low contrast (such as the whitening of the display screen in daylight), and it is impossible to take into account the requirements for proper optical anisotropy, proper dielectric anisotropy, and high voltage in LCD TVs, tablet computers, etc. The performance balance issues of retention rate, good UV stability and high temperature stability cannot meet all indicators at the same time.

從液晶材料的製備角度出發,液晶材料的各項性能是互相牽制影響的,某項性能指標的提高可能會使其他性能發生變化。因此,製備各方面性能都合適的液晶材料往往需要創造性勞動。From the perspective of the preparation of liquid crystal materials, the properties of liquid crystal materials are mutually constrained and influenced, and the improvement of a certain performance index may cause other properties to change. Therefore, the preparation of liquid crystal materials with suitable properties in all aspects often requires creative work.

液晶材料是液晶顯示器的重要組成部分,目前全球液晶顯示器具有很大的市場需求,其多用於電子電器產品中,但其生命週期較短。較短的生命週期自然存在廢棄污染等問題,在如今綠色環保問題日益受到社會各界的重視的情況下,如若能從源頭控制,即在液晶材料的調製過程中選擇環保綠色的材質,就能極大降低處理廢棄液晶顯示器時所付出的環境代價。因此,製備各方面性能都合適、又經濟綠色環保的液晶材料往往更需要創造性勞動。The liquid crystal material is an important part of the liquid crystal display. At present, the global liquid crystal display has a great market demand. It is mostly used in electronic and electrical products, but its life cycle is short. The short life cycle naturally has problems such as waste pollution. In today's environment where environmental protection issues are increasingly valued by all walks of life, if you can control it from the source, that is, choose environmentally friendly green materials in the modulation process of liquid crystal materials, you can greatly Reduce the environmental cost of disposal of waste LCDs. Therefore, the preparation of liquid crystal materials that are suitable in all aspects and economical, green and environmentally friendly often requires creative work.

發明目的: 針對現有技術的缺陷,本發明的目的在於提供一種在維持適當的清亮點的情況下,還具有較大的光學各向異性、較大的介電各向異性、較低的旋轉粘度、較好的低溫存儲穩定性、較大的Kave 值、以及較大的VHR(初始)和VHR(UV)和VHR(高溫)(即較好的可靠性)的液晶組合物。本發明的目的還在於提供一種包含所述液晶組合物的液晶顯示器件。 Object of the invention: In view of the shortcomings of the prior art, the object of the present invention is to provide a large optical anisotropy, a large dielectric anisotropy, and a low rotational viscosity while maintaining an appropriate clearing point , A better low-temperature storage stability, a larger Kave value, and a larger VHR (initial) and VHR (UV) and VHR (high temperature) (that is, better reliability) liquid crystal composition. An object of the present invention is also to provide a liquid crystal display device containing the liquid crystal composition.

本發明的技術方案: 為了實現上述發明目的,本發明提供了一種液晶組合物,所述液晶組合物包含: 一種或多種通式Ⅱ的化合物

Figure 02_image005
Ⅱ; 一種或多種通式M的化合物
Figure 02_image007
M; 一種或多種通式A-1的化合物
Figure 02_image009
A-1;以及 一種或多種通式A-2的化合物
Figure 02_image011
A-2, 其中, R2 表示-H、含有1-12個碳原子的直鏈的烷基或烷氧基、含有2-12個碳原子的烯基或烯氧基; RM1 和RM2 各自獨立地表示-H、含有1-12個碳原子的直鏈或支鏈的烷基、
Figure 02_image013
Figure 02_image015
Figure 02_image017
,所述含有1-12個碳原子的直鏈或支鏈的烷基中的1個或不相鄰的2個以上的-CH2 -可分別獨立地被-CH=CH-、-C≡C-、-O-、-CO-、-CO-O-或-O-CO-替代; RA1 和RA2 各自獨立地表示含有1-12個碳原子的直鏈或支鏈的烷基、
Figure 02_image013
Figure 02_image015
Figure 02_image017
,所述含有1-12個碳原子的直鏈或支鏈的烷基中的1個或不相鄰的2個以上的-CH2 -可分別獨立地被-CH=CH-、-C≡C-、-O-、-CO-、-CO-O-或-O-CO-替代,並且所述含有1-12個碳原子的直鏈或支鏈的烷基、
Figure 02_image013
Figure 02_image015
Figure 02_image017
中的一個或更多個-H可分別獨立地被-F或-Cl取代; ZM1 和ZM2 各自獨立地表示單鍵、-CO-O-、-O-CO-、-CH2 O-、-OCH2 -、-CH=CH-、-C≡C-、-CH2 CH2 -或-(CH2 )4 -; ZA11 、ZA21 和ZA22 各自獨立地表示單鍵、-CH2 CH2 -、-CF2 CF2 -、-CO-O-、-O-CO-、-O-CO-O-、-CH=CH-、-CF=CF-、-CH2 O-或-OCH2 -; LA11 、LA12 、LA13 、LA21 和LA22 各自獨立地表示-H、含有1-3個碳原子的烷基或鹵素; XA1 和XA2 各自獨立地表示鹵素、含有1-5個碳原子的鹵代烷基或鹵代烷氧基、含有2-5個碳原子的鹵代烯基或鹵代烯氧基; 環
Figure 02_image019
表示
Figure 02_image021
Figure 02_image023
; 環
Figure 02_image025
、環
Figure 02_image027
和環
Figure 02_image029
各自獨立地表示
Figure 02_image021
Figure 02_image023
,其中,
Figure 02_image021
中的一個或更多個-CH2 -可被-O-替代,
Figure 02_image023
中的至多一個-H可被鹵素取代; 環
Figure 02_image031
、環
Figure 02_image033
、環
Figure 02_image035
和環
Figure 02_image037
各自獨立地表示
Figure 02_image039
Figure 02_image021
Figure 02_image023
Figure 02_image041
,其中,
Figure 02_image039
Figure 02_image021
Figure 02_image041
中一個或更多個-CH2 -可被-O-替代,一個或更多個環中單鍵可被雙鍵替代,
Figure 02_image023
Figure 02_image041
中的一個或更多個-H可被-CN、-F或-Cl取代,一個或更多個環中-CH=可被-N=替代; a和b各自獨立地表示0至5的整數; nM1 、nA11 和nA2 各自獨立地表示0、1、2或3,且當nM1 =2或3時,環
Figure 02_image027
可以相同或不同,ZM2 可以相同或不同;當nA11 =2或3時,環
Figure 02_image031
可以相同或不同,ZA11 可以相同或不同;當nA2 =2或3時,環
Figure 02_image035
可以相同或不同,ZA21 可以相同或不同; nA12 表示1或2,且當nA12 =2時,環
Figure 02_image043
可以相同或不同;並且 所述通式M的化合物中並不包含通式Ⅱ的化合物。 Technical Solution of the Invention: In order to achieve the above object of the invention, the invention provides a liquid crystal composition, the liquid crystal composition comprising: one or more compounds of the general formula II
Figure 02_image005
Ⅱ; one or more compounds of general formula M
Figure 02_image007
M; one or more compounds of general formula A-1
Figure 02_image009
A-1; and one or more compounds of general formula A-2
Figure 02_image011
A-2, wherein R 2 represents -H, a linear alkyl group or alkoxy group containing 1-12 carbon atoms, an alkenyl group or alkenoxy group containing 2-12 carbon atoms; R M1 and R M2 Each independently represents -H, a linear or branched alkyl group containing 1-12 carbon atoms,
Figure 02_image013
,
Figure 02_image015
or
Figure 02_image017
, The linear or branched alkyl group containing 1-12 carbon atoms, one or two or more non-adjacent -CH 2 -can be independently -CH=CH-, -C≡ C-, -O-, -CO-, -CO-O- or -O-CO- substitution; R A1 and R A2 each independently represent a linear or branched alkyl group containing 1-12 carbon atoms,
Figure 02_image013
,
Figure 02_image015
or
Figure 02_image017
, The linear or branched alkyl group containing 1-12 carbon atoms, one or two or more non-adjacent -CH 2 -can be independently -CH=CH-, -C≡ C-, -O-, -CO-, -CO-O- or -O-CO-, and the linear or branched alkyl group containing 1-12 carbon atoms,
Figure 02_image013
,
Figure 02_image015
or
Figure 02_image017
One or more of -H may be independently substituted by -F or -Cl; Z M1 and Z M2 each independently represent a single bond, -CO-O-, -O-CO-, -CH 2 O- , -OCH 2 -, -CH=CH-, -C≡C-, -CH 2 CH 2 -or -(CH 2 ) 4 -; Z A11 , Z A21 and Z A22 each independently represent a single bond, -CH 2 CH 2 -, -CF 2 CF 2 -, -CO-O-, -O-CO-, -O-CO-O-, -CH=CH-, -CF=CF-, -CH 2 O- or -OCH 2 -; L A11 , L A12 , L A13 , L A21 and L A22 each independently represent -H, an alkyl group containing 1-3 carbon atoms or halogen; X A1 and X A2 each independently represent halogen, Haloalkyl or haloalkoxy containing 1-5 carbon atoms, haloalkenyl or haloalkenyloxy containing 2-5 carbon atoms; ring
Figure 02_image019
Express
Figure 02_image021
or
Figure 02_image023
; Ring
Figure 02_image025
,ring
Figure 02_image027
And ring
Figure 02_image029
Express independently
Figure 02_image021
or
Figure 02_image023
,among them,
Figure 02_image021
One or more of -CH 2 -can be replaced by -O-,
Figure 02_image023
At most one of -H may be substituted by halogen; ring
Figure 02_image031
,ring
Figure 02_image033
,ring
Figure 02_image035
And ring
Figure 02_image037
Express independently
Figure 02_image039
,
Figure 02_image021
,
Figure 02_image023
or
Figure 02_image041
,among them,
Figure 02_image039
,
Figure 02_image021
with
Figure 02_image041
One or more -CH 2 -may be replaced by -O-, one or more single bonds in the ring may be replaced by double bonds,
Figure 02_image023
with
Figure 02_image041
One or more of -H may be replaced by -CN, -F or -Cl, and one or more rings -CH= may be replaced by -N=; a and b each independently represent an integer from 0 to 5 ; N M1 , n A11 and n A2 each independently represent 0, 1, 2 or 3, and when n M1 = 2 or 3, the ring
Figure 02_image027
Can be the same or different, Z M2 can be the same or different; when n A11 = 2 or 3, the ring
Figure 02_image031
May be the same or different, Z A11 may be the same or different; when n A2 = 2 or 3, the ring
Figure 02_image035
May be the same or different, Z A21 may be the same or different; n A12 represents 1 or 2, and when n A12 = 2, the ring
Figure 02_image043
May be the same or different; and the compound of formula M does not include the compound of formula II.

關於通式Ⅱ的化合物的占本發明的液晶組合物的重量百分比優選:相對于本發明的液晶組合物的總重量,通式Ⅱ的化合物占本發明的液晶組合物的重量百分比優選的下限值為0.1%,0.5%,1%,2%,3%,4%,5%,7%,8%,9%或10%;相對于本發明的液晶組合物的總重量,通式Ⅱ的化合物的占本發明的液晶組合物的重量百分比優選上限值為50%,45%,40%,35%,30%,28%,27%,26%,25.5%,25%,24.5%,24%,22%,20%,18%,16%或15%。With respect to the weight percentage of the compound of the general formula II in the liquid crystal composition of the present invention, the lower limit of the weight percentage of the compound of the general formula II in the liquid crystal composition of the present invention is preferably relative to the total weight of the liquid crystal composition of the present invention The value is 0.1%, 0.5%, 1%, 2%, 3%, 4%, 5%, 7%, 8%, 9% or 10%; relative to the total weight of the liquid crystal composition of the present invention, Formula II The upper limit of the weight percentage of the compound of the liquid crystal composition of the present invention is preferably 50%, 45%, 40%, 35%, 30%, 28%, 27%, 26%, 25.5%, 25%, 24.5% , 24%, 22%, 20%, 18%, 16% or 15%.

在本發明的一些實施方案中,通式Ⅱ的化合物占液晶組合物的重量百分比為0.1%-50%。In some embodiments of the invention, the compound of formula II comprises 0.1%-50% by weight of the liquid crystal composition.

在本發明的一些實施方案中,在通式Ⅱ的化合物中,a和b各自獨立地表示0、1或2。In some embodiments of the invention, in the compound of general formula II, a and b each independently represent 0, 1, or 2.

在本發明的一些實施方案中,在通式Ⅱ的化合物中,R2 優選為含有1-8個碳原子的烷基或烷氧基、含有2-8個碳原子的烯基或烯氧基;進一步優選為含有1-5個碳原子的烷基或烷氧基、含有2-5個碳原子的烯基或烯氧基。In some embodiments of the present invention, in the compound of general formula II, R 2 is preferably an alkyl or alkoxy group containing 1-8 carbon atoms, an alkenyl group or alkenoxy group containing 2-8 carbon atoms ; Further preferred are alkyl or alkoxy groups containing 1-5 carbon atoms, alkenyl groups or alkenoxy groups containing 2-5 carbon atoms.

在本發明的一些實施方案中,通式Ⅱ的化合物選自由如下化合物組成的組:

Figure 02_image045
Ⅱ-1;
Figure 02_image047
Ⅱ-2;
Figure 02_image049
Ⅱ-3;以及
Figure 02_image051
Ⅱ-4, 其中, Lx 表示-H或-CH3 。In some embodiments of the invention, the compound of general formula II is selected from the group consisting of:
Figure 02_image045
Ⅱ-1;
Figure 02_image047
Ⅱ-2;
Figure 02_image049
Ⅱ-3; and
Figure 02_image051
Ⅱ-4, where L x represents -H or -CH 3 .

在本發明的一些實施方案中,通式Ⅱ的化合物優選自由通式Ⅱ-3和通式Ⅱ-4的化合物組成的組;特別優選自通式Ⅱ-4的化合物。In some embodiments of the invention, the compound of general formula II is preferably a group consisting of compounds of general formula II-3 and general formula II-4; particular preference is given to compounds of general formula II-4.

在本發明的一些實施方案中,液晶組合物中優選含有至少一種通式Ⅱ-4的化合物;特別優選含有兩種通式Ⅱ-4的化合物。In some embodiments of the invention, the liquid crystal composition preferably contains at least one compound of general formula II-4; particularly preferably contains two compounds of general formula II-4.

在本發明的一些實施方案中,液晶組合物中含有至少兩種通式Ⅱ的化合物,其中至少一種通式Ⅱ的化合物選自通式Ⅱ-4的化合物。In some embodiments of the invention, the liquid crystal composition contains at least two compounds of general formula II, wherein at least one compound of general formula II is selected from compounds of general formula II-4.

在本發明的一些實施方案中,通式M的化合物的介電各向異性的絕對值不超過3;優選地,通式M的化合物的介電各向異性的絕對值不超過2。In some embodiments of the invention, the absolute value of the dielectric anisotropy of the compound of general formula M does not exceed 3; preferably, the absolute value of the dielectric anisotropy of the compound of general formula M does not exceed 2.

在本發明的一些實施方案中,通式M的化合物中,RM1 和RM2 各自獨立地優選為含有1~10個碳原子的直鏈的烷基、含有1~9個碳原子的直鏈的烷氧基、或含有2~10個碳原子的直鏈的烯基;進一步優選為含有1~8個碳原子的直鏈的烷基、含有1~7個碳原子的直鏈的烷氧基、或含有2~8個碳原子的直鏈的烯基;再進一步優選為含有1~5個碳原子的直鏈的烷基、含有1~4個碳原子的直鏈的烷氧基、或含有2~5個碳原子的直鏈的烯基。In some embodiments of the invention, in the compound of formula M, R M1 and R M2 are each independently preferably a linear alkyl group containing 1 to 10 carbon atoms, a linear chain containing 1 to 9 carbon atoms Alkoxy, or a straight-chain alkenyl group containing 2 to 10 carbon atoms; more preferably a straight-chain alkyl group containing 1 to 8 carbon atoms, a straight-chain alkoxy group containing 1 to 7 carbon atoms Group or a straight-chain alkenyl group containing 2 to 8 carbon atoms; still more preferably a straight-chain alkyl group containing 1 to 5 carbon atoms, a straight-chain alkoxy group containing 1 to 4 carbon atoms, Or a linear alkenyl group containing 2 to 5 carbon atoms.

在本發明的一些實施方案中,優選地,RM1 和RM2 各自獨立地表示含有2~8個碳原子的直鏈的烯基;進一步優選地,RM1 和RM2 各自獨立地表示含有2~5個碳原子的直鏈的烯基。In some embodiments of the present invention, preferably, R M1 and R M2 each independently represent a linear alkenyl group containing 2 to 8 carbon atoms; further preferably, R M1 and R M2 each independently represent a content of 2 Straight-chain alkenyl of ~5 carbon atoms.

在本發明的一些實施方案中,優選地,RM1 和RM2 中的一者為含有2~5個碳原子的直鏈的烯基,而另一者為含有1~5個碳原子的直鏈的烷基。In some embodiments of the present invention, preferably, one of R M1 and R M2 is a straight-chain alkenyl group containing 2 to 5 carbon atoms, and the other is a straight-chain alkenyl group containing 1 to 5 carbon atoms. Chain alkyl.

在本發明的一些實施方案中,優選地,RM1 和RM2 兩者均為含有1~8個碳原子的直鏈的烷基、或含有1~7個碳原子的直鏈的烷氧基;進一步優選地,RM1 和RM2 兩者均為含有1~5個碳原子的直鏈的烷基、或含有1~4個碳原子的直鏈的烷氧基。In some embodiments of the present invention, preferably, both R M1 and R M2 are linear alkyl groups containing 1 to 8 carbon atoms, or linear alkoxy groups containing 1 to 7 carbon atoms Further preferably, both R M1 and R M2 are linear alkyl groups containing 1 to 5 carbon atoms, or linear alkoxy groups containing 1 to 4 carbon atoms.

在本發明的一些實施方案中,優選地,RM1 和RM2 中的一者為含有1~5個碳原子的直鏈的烷基,而另一者為含有1~5個碳原子的直鏈的烷基、或含有1~4個碳原子的直鏈的烷氧基;進一步優選地,RM1 和RM2 兩者均為含有1~5個碳原子的直鏈的烷基。In some embodiments of the present invention, preferably, one of R M1 and R M2 is a straight-chain alkyl group containing 1 to 5 carbon atoms, and the other is a straight-chain alkyl group containing 1 to 5 carbon atoms. A chain alkyl group, or a linear alkoxy group containing 1 to 4 carbon atoms; more preferably, both R M1 and R M2 are linear alkyl groups containing 1 to 5 carbon atoms.

本發明中的烯基優選地選自式(V1)至式(V9)中的任一者所表示的基團,特別優選為式(V1)、式(V2)、式(V8)或式(V9)。式(V1)至式(V9)所表示的基團如下所示:

Figure 02_image053
Figure 02_image055
Figure 02_image057
Figure 02_image059
Figure 02_image061
Figure 02_image063
Figure 02_image065
Figure 02_image067
Figure 02_image069
, 其中,*表示所鍵結的環結構中的碳原子。The alkenyl group in the present invention is preferably selected from groups represented by any one of formula (V1) to formula (V9), particularly preferably formula (V1), formula (V2), formula (V8) or formula ( V9). The groups represented by formula (V1) to formula (V9) are as follows:
Figure 02_image053
Figure 02_image055
Figure 02_image057
Figure 02_image059
Figure 02_image061
Figure 02_image063
Figure 02_image065
Figure 02_image067
Figure 02_image069
, Where * represents the carbon atom in the bonded ring structure.

本發明中的烯氧基優選地選自式(OV1)至式(OV9)中的任一者所表示的基團,特別優選為式(OV1)、式(OV2)、式(OV8)或式(OV9)。式(OV1)至式(OV9)所表示的基團如下所示:

Figure 02_image071
Figure 02_image073
Figure 02_image075
Figure 02_image077
Figure 02_image079
Figure 02_image081
Figure 02_image083
Figure 02_image085
Figure 02_image087
, 其中,*表示所鍵結的環結構中的碳原子。The alkenyloxy group in the present invention is preferably selected from the group represented by any one of formula (OV1) to formula (OV9), particularly preferably formula (OV1), formula (OV2), formula (OV8) or formula (OV9). The groups represented by formula (OV1) to formula (OV9) are as follows:
Figure 02_image071
Figure 02_image073
Figure 02_image075
Figure 02_image077
Figure 02_image079
Figure 02_image081
Figure 02_image083
Figure 02_image085
Figure 02_image087
, Where * represents the carbon atom in the bonded ring structure.

在本發明的一些實施方案中,通式M的化合物選自由如下化合物組成的組:

Figure 02_image089
M1;
Figure 02_image091
M2;
Figure 02_image093
M3;
Figure 02_image095
M4;
Figure 02_image097
M5;
Figure 02_image099
M6;
Figure 02_image101
M7;
Figure 02_image103
M8;
Figure 02_image105
M9;
Figure 02_image107
M10;
Figure 02_image109
M11;
Figure 02_image111
M12;
Figure 02_image113
M13;
Figure 02_image115
M14;
Figure 02_image117
M15;
Figure 02_image119
M16;
Figure 02_image121
M17;
Figure 02_image123
M18;
Figure 02_image125
M19;
Figure 02_image127
M20;
Figure 02_image129
M21;
Figure 02_image131
M22;
Figure 02_image133
M23;以及
Figure 02_image135
M24。In some embodiments of the invention, the compound of general formula M is selected from the group consisting of:
Figure 02_image089
M1;
Figure 02_image091
M2;
Figure 02_image093
M3;
Figure 02_image095
M4;
Figure 02_image097
M5;
Figure 02_image099
M6;
Figure 02_image101
M7;
Figure 02_image103
M8;
Figure 02_image105
M9;
Figure 02_image107
M10;
Figure 02_image109
M11;
Figure 02_image111
M12;
Figure 02_image113
M13;
Figure 02_image115
M14;
Figure 02_image117
M15;
Figure 02_image119
M16;
Figure 02_image121
M17;
Figure 02_image123
M18;
Figure 02_image125
M19;
Figure 02_image127
M20;
Figure 02_image129
M21;
Figure 02_image131
M22;
Figure 02_image133
M23; and
Figure 02_image135
M24.

在本發明的一些實施方案中,關於通式M的化合物的含量,必須視低溫下的溶解性、轉變溫度、電可靠性、雙折射率、工藝適應性、滴下痕跡、燒屏、介電各向異性等所需的性能而適當進行調整。In some embodiments of the present invention, regarding the content of the compound of the general formula M, the solubility at low temperature, transition temperature, electrical reliability, birefringence, process adaptability, dripping traces, burn-in, dielectric Adjust the performance required for anisotropy.

關於通式M的化合物的占本發明的液晶組合物的重量百分比優選:相對于本發明的液晶組合物的總重量,通式M的化合物的占本發明的液晶組合物的重量百分比優選的下限值為0.1%,1%,10%,20%,30%,40%或50%;相對于本發明的液晶組合物的總重量,通式M的化合物的占本發明的液晶組合物的重量百分比優選的上限值為90%,85%,80%,75%,70%,65%,60%,55%,50%,45%,35%或25%。Regarding the weight percentage of the compound of the general formula M in the liquid crystal composition of the present invention, the weight percentage of the compound of the general formula M in the liquid crystal composition of the present invention is preferably lower than the total weight of the liquid crystal composition of the present invention. The limits are 0.1%, 1%, 10%, 20%, 30%, 40% or 50%; relative to the total weight of the liquid crystal composition of the present invention, the compound of the general formula M accounts for The preferred upper limit of the weight percentage is 90%, 85%, 80%, 75%, 70%, 65%, 60%, 55%, 50%, 45%, 35% or 25%.

在本發明的一些實施方案中,通式M的化合物占液晶組合物的重量百分比為0.1%-90%。In some embodiments of the present invention, the compound of formula M accounts for 0.1%-90% of the liquid crystal composition by weight.

關於通式M的化合物的含量,在需要保持本發明的液晶組合物的粘度較低、且回應時間較短時,優選其下限值較高、且上限值較高;進一步在需要保持本發明的液晶組合物的清亮點較高、且溫度穩定性良好時,優選其下限值較高、且上限值較高;在為了將驅動電壓保持為較低、且使介電各向異性的絕對值變大時,優選使其下限值變低、且上限值變低。Regarding the content of the compound of the general formula M, when the viscosity of the liquid crystal composition of the present invention needs to be kept low and the response time is short, it is preferable that the lower limit value is higher and the upper limit value is higher; When the liquid crystal composition of the invention has a high clearing point and good temperature stability, it is preferable that the lower limit value is higher and the upper limit value is higher; in order to keep the driving voltage low and the dielectric anisotropy When the absolute value of becomes larger, it is preferable to lower the lower limit value and lower the upper limit value.

在本發明的一些實施方案中,在重視可靠性的情形時,優選RM1 和RM2 均為烷基;在重視降低化合物的揮發性的情形時,優選RM1 和RM2 均為烷氧基;在重視粘度降低的情形時,優選RM1 和RM2 中至少一者為烯基。In some embodiments of the present invention, when importance is attached to reliability, both R M1 and R M2 are preferably alkyl; when emphasis is placed on reducing the volatility of the compound, it is preferred that both R M1 and R M2 are alkoxy When it is important to lower the viscosity, it is preferred that at least one of R M1 and R M2 is an alkenyl group.

在本發明的一些實施方案中,通式M的化合物特別優選自由通式M1、通式M2、通式M3、通式M4、通式M7、通式M8、通式M9、通式M10、通式M11、通式M13、通式M15、通式M16、通式M17、通式M18、通式M19、通式M20、通式M21、通式M22、通式M23以及通式M24的化合物組成的組。In some embodiments of the invention, the compound of general formula M is particularly preferably free of general formula M1, general formula M2, general formula M3, general formula M4, general formula M7, general formula M8, general formula M9, general formula M10, general formula Formula M11, Formula M13, Formula M15, Formula M16, Formula M17, Formula M18, Formula M19, Formula M20, Formula M21, Formula M22, Formula M23 and Formula M24 group.

在本發明的一些實施方案中,通式M的化合物優選地選自由通式M1、通式M4、通式M9、通式M13以及通式M20的化合物組成的組。In some embodiments of the invention, the compound of general formula M is preferably selected from the group consisting of compounds of general formula M1, general formula M4, general formula M9, general formula M13 and general formula M20.

在本發明的一些實施方案中,在通式M1的化合物中,RM1 表示含有1~7個碳原子的直鏈或支鏈的烷基或烷氧基;進一步優選含有1~5個碳原子的直鏈或支鏈的烷基或烷氧基。In some embodiments of the present invention, in the compound of the general formula M1, R M1 represents a linear or branched alkyl or alkoxy group containing 1 to 7 carbon atoms; further preferably containing 1 to 5 carbon atoms Linear or branched alkyl or alkoxy.

關於通式M1的化合物的占本發明的液晶組合物的重量百分比的優選:相對于本發明的液晶組合物的總重量,通式M1的化合物的占本發明的液晶組合物的重量百分比優選的下限值為1%,3%,5%,7%,10%,13%,15%,17%,20%,23%,25%或30%;相對于本發明的液晶組合物的總重量,通式M1的化合物的占本發明的液晶組合物的重量百分比優選的上限值為60%,55%,50%,45%,40%,37%,35%,33%,30%,27%,25%,23%,20%,17%,15%,13%或10%。With respect to the weight percentage of the compound of the general formula M1 in the liquid crystal composition of the present invention, the weight percentage of the compound of the general formula M1 in the liquid crystal composition of the present invention is preferably relative to the total weight of the liquid crystal composition of the present invention The lower limit is 1%, 3%, 5%, 7%, 10%, 13%, 15%, 17%, 20%, 23%, 25% or 30%; relative to the total of the liquid crystal composition of the present invention By weight, the preferred upper limit of the weight percentage of the compound of the general formula M1 in the liquid crystal composition of the present invention is 60%, 55%, 50%, 45%, 40%, 37%, 35%, 33%, 30% , 27%, 25%, 23%, 20%, 17%, 15%, 13% or 10%.

為了特別改善本發明的液晶組合物的響應時間,優選通式M1的化合物中RM1 為乙基、正丙基、丁基或戊基、且RM2 為甲基或甲氧基的化合物,通式M1的化合物中RM1 為乙基、正丙基、丁基或戊基、且RM2 為乙基或乙氧基的化合物,或通式M1的化合物中RM1 為正丙基、丁基或戊基、且RM2 為正丙基或丙氧基的化合物。In order to improve the response time of the liquid crystal composition of the present invention in particular, it is preferable that the compound of the general formula M1 where R M1 is ethyl, n-propyl, butyl or pentyl, and R M2 is methyl or methoxy, is generally Compounds of formula M1 where R M1 is ethyl, n-propyl, butyl or pentyl, and R M2 is ethyl or ethoxy, or compounds of general formula M1 where R M1 is n-propyl, butyl Or pentyl, and R M2 is n-propyl or propoxy.

相對于本發明的液晶組合物的總重量,通式M1的化合物中RM1 為正丙基且RM2 為乙基的化合物的占本發明的液晶組合物的重量百分比優選的下限值為1%,2%,3%,5%,7%,10%,13%,15%,18%或20%;相對于本發明的液晶組合物的總重量,通式M1中RM1 為正丙基且RM2 為乙基的化合物的占本發明的液晶組合物的重量百分比優選的上限值為20%,17%,15%,13%,10%,8%,7%或6%。With respect to the total weight of the liquid crystal composition of the present invention, in the compound of the general formula M1, R M1 is n-propyl and R M2 is ethyl. The preferred lower limit of the weight percentage of the liquid crystal composition of the present invention is 1 %, 2%, 3%, 5%, 7%, 10%, 13%, 15%, 18% or 20%; relative to the total weight of the liquid crystal composition of the present invention, R M1 in the general formula M1 is n-propyl The preferred upper limit of the weight percentage of the compound based on R M2 which is an ethyl group in the liquid crystal composition of the present invention is 20%, 17%, 15%, 13%, 10%, 8%, 7%, or 6%.

關於通式M2的化合物的占本發明的液晶組合物的重量百分比優選:相對于本發明的液晶組合物的總重量,通式M2的化合物的占本發明的液晶組合物的重量百分比優選的下限值為1%,2%,3%,5%,7%或10%;相對于本發明的液晶組合物的總重量,通式M2的化合物的占本發明的液晶組合物的重量百分比優選的上限值為20%,15%,13%,10%,8%,7%,6%,5%或3%。With respect to the weight percentage of the compound of the general formula M2 in the liquid crystal composition of the present invention, the weight percentage of the compound of the general formula M2 in the liquid crystal composition of the present invention is preferably lower than the total weight of the liquid crystal composition of the present invention The limit value is 1%, 2%, 3%, 5%, 7% or 10%; relative to the total weight of the liquid crystal composition of the present invention, the weight percentage of the compound of the general formula M2 in the liquid crystal composition of the present invention is preferably The upper limit is 20%, 15%, 13%, 10%, 8%, 7%, 6%, 5% or 3%.

關於通式M4的化合物的占本發明的液晶組合物的重量百分比優選:相對于本發明的液晶組合物的總重量,通式M4的化合物的占本發明的液晶組合物的重量百分比優選的下限值為1%,2%,3%,5%,7%或10%;相對于本發明的液晶組合物的總重量,通式M4的化合物的占本發明的液晶組合物的重量百分比優選的上限值為20%,15%,13%,10%,8%,7%,6%,5%或3%。With respect to the weight percentage of the compound of the general formula M4 in the liquid crystal composition of the present invention, the weight percentage of the compound of the general formula M4 in the liquid crystal composition of the present invention is preferably lower than the total weight of the liquid crystal composition of the present invention The limit value is 1%, 2%, 3%, 5%, 7% or 10%; relative to the total weight of the liquid crystal composition of the present invention, the weight percentage of the compound of the general formula M4 in the liquid crystal composition of the present invention is preferably The upper limit is 20%, 15%, 13%, 10%, 8%, 7%, 6%, 5% or 3%.

關於通式M9的化合物占本發明的液晶組合物的重量百分比優選:相對于本發明的液晶組合物的總重量,通式M9的化合物的占本發明的液晶組合物的重量百分比優選的下限值為1%,2%,3%,5%,7%,10%,14%,16%,20%,23%,26%,30%,35%或40%;相對于本發明的液晶組合物的總重量,通式M9的化合物的占本發明的液晶組合物的重量百分比優選的上限值為50%,40%,35%,30%,20%,15%,10%或5%。Regarding the weight percentage of the compound of the general formula M9 in the liquid crystal composition of the present invention, the lower limit of the weight percentage of the compound of the general formula M9 in the liquid crystal composition of the present invention is preferably relative to the total weight of the liquid crystal composition of the present invention Values are 1%, 2%, 3%, 5%, 7%, 10%, 14%, 16%, 20%, 23%, 26%, 30%, 35% or 40%; relative to the liquid crystal of the present invention The total weight of the composition, the upper limit of the weight percentage of the compound of the general formula M9 in the liquid crystal composition of the present invention is preferably 50%, 40%, 35%, 30%, 20%, 15%, 10% or 5 %.

在本發明的一些實施方案中,視低溫下的溶解性、轉變溫度、電可靠性、雙折射率等所要求的性能,優選含有通式M9的化合物中RM1 為含有2-4個碳原子的直鏈或支鏈的烯基、且RM2 為CH3 -的化合物,所述含有2-4個碳原子的直鏈或支鏈的烯基進一步優選為

Figure 02_image053
Figure 02_image067
。In some embodiments of the present invention, depending on the properties required for solubility at low temperatures, transition temperature, electrical reliability, birefringence, etc., it is preferred that in compounds containing the general formula M9, R M1 contains 2-4 carbon atoms The compound of the linear or branched alkenyl group, and R M2 is CH 3 -, the linear or branched alkenyl group containing 2-4 carbon atoms is more preferably
Figure 02_image053
or
Figure 02_image067
.

相對于本發明的液晶組合物的總重量,通式M9的化合物中RM1

Figure 02_image053
Figure 02_image067
、且RM2 為CH3 -的化合物的占本發明的液晶組合物的重量百分比優選的下限值為1%,3%,5%,7%,9%,11%,12%,13%,18%或21%,並且優選上限值為45%,40%,35%,30%,25%,23%,20%,18%,15%,13%,10%或8%。在同時含有所述兩種化合物時,相對于本發明的液晶組合物總重量,所述兩種化合物的占本發明的液晶組合物的重量百分比優選的下限值為3%,5%,7%,9%,11%,13%,15%,19%,24%或30%,優選上限值為45%,40%,35%,30%,25%,23%,20%,18%,15%、13%、11%或9%。With respect to the total weight of the liquid crystal composition of the present invention, R M1 in the compound of the general formula M9 is
Figure 02_image053
or
Figure 02_image067
The preferred lower limit of the weight percentage of the compound of R M2 which is CH 3 -in the liquid crystal composition of the present invention is 1%, 3%, 5%, 7%, 9%, 11%, 12%, 13% , 18% or 21%, and preferably the upper limit is 45%, 40%, 35%, 30%, 25%, 23%, 20%, 18%, 15%, 13%, 10% or 8%. When the two compounds are contained at the same time, with respect to the total weight of the liquid crystal composition of the present invention, the preferred lower limit of the weight percentage of the two compounds in the liquid crystal composition of the present invention is 3%, 5%, 7 %, 9%, 11%, 13%, 15%, 19%, 24% or 30%, preferably the upper limit is 45%, 40%, 35%, 30%, 25%, 23%, 20%, 18 %, 15%, 13%, 11% or 9%.

關於通式M10的化合物的占本發明的液晶組合物的重量百分比優選:相對于本發明的液晶組合物的總重量,通式M10的化合物的占本發明的液晶組合物的重量百分比優選的下限值為1%,2%,3%,4%,5%,7%,10%,14%,16%或20%;相對于本發明的液晶組合物的總重量,通式M10的化合物的占本發明的液晶組合物的重量百分比優選的上限值為45%,40%,35%,30%,20%,15%,10%或5%。With respect to the weight percentage of the compound of the general formula M10 in the liquid crystal composition of the present invention, the weight percentage of the compound of the general formula M10 in the liquid crystal composition of the present invention is preferably lower than the total weight of the liquid crystal composition of the present invention The limits are 1%, 2%, 3%, 4%, 5%, 7%, 10%, 14%, 16% or 20%; relative to the total weight of the liquid crystal composition of the present invention, the compound of formula M10 The preferred upper limit of the weight percentage of the liquid crystal composition of the present invention is 45%, 40%, 35%, 30%, 20%, 15%, 10% or 5%.

在本發明的一些實施方案中,視低溫下的溶解性、轉變溫度、電可靠性、雙折射率等所要求的性能,優選含有通式M10的化合物中RM1 為含有2-4個碳原子的直鏈或支鏈的烯基、且RM2 為CH3 -的化合物,所述含有2-4個碳原子的直鏈或支鏈的烯基進一步優選為

Figure 02_image053
Figure 02_image067
。In some embodiments of the present invention, depending on the properties required for solubility at low temperature, transition temperature, electrical reliability, birefringence, etc., it is preferred that in compounds containing the general formula M10, R M1 contains 2-4 carbon atoms The compound of the linear or branched alkenyl group, and R M2 is CH 3 -, the linear or branched alkenyl group containing 2-4 carbon atoms is more preferably
Figure 02_image053
or
Figure 02_image067
.

相對于本發明的液晶組合物的總重量,通式M10的化合物中RM1

Figure 02_image053
Figure 02_image067
、且RM2 為CH3 -的化合物的占本發明的液晶組合物的重量百分比優選的下限值為1%,3%,4%,5%,7%,9%,11%,12%,13%,18%或20%,並且優選上限值為40%,35%,30%,25%,23%,20%,18%,15%,13%,10%或8%。在同時含有所述兩種化合物時,相對于本發明的液晶組合物的總重量,所述兩種化合物的占本發明的液晶組合物的重量百分比優選的下限值為3%,5%,7%,9%,11%,13%,15%,19%,24%或30%,優選上限值為45%,40%,35%,30%,25%,23%,20%,18%,15%或13%。With respect to the total weight of the liquid crystal composition of the present invention, R M1 in the compound of the general formula M10 is
Figure 02_image053
or
Figure 02_image067
The preferred lower limit of the weight percentage of the compound of R M2 which is CH 3 -in the liquid crystal composition of the present invention is 1%, 3%, 4%, 5%, 7%, 9%, 11%, 12% , 13%, 18% or 20%, and preferably the upper limit value is 40%, 35%, 30%, 25%, 23%, 20%, 18%, 15%, 13%, 10% or 8%. When the two compounds are contained at the same time, with respect to the total weight of the liquid crystal composition of the present invention, the preferred lower limit of the weight percentage of the two compounds in the liquid crystal composition of the present invention is 3%, 5%, 7%, 9%, 11%, 13%, 15%, 19%, 24% or 30%, preferably the upper limit is 45%, 40%, 35%, 30%, 25%, 23%, 20%, 18%, 15% or 13%.

關於通式M11的化合物占本發明的液晶組合物的重量百分比優選:相對于本發明的液晶組合物的總重量,通式M11的化合物的占本發明的液晶組合物的重量百分比優選的下限值為1%,2%,3%,5%,7%,10%,14%,16%,20%,23%,26%,30%,35%或40%;相對于本發明的液晶組合物的總重量,通式M11的化合物的占本發明的液晶組合物的重量百分比優選的上限值為50%,40%,35%,30%,20%,15%,10%或5%。Regarding the weight percentage of the compound of the general formula M11 in the liquid crystal composition of the present invention, it is preferably: the lower limit of the weight percentage of the compound of the general formula M11 in the liquid crystal composition of the present invention relative to the total weight of the liquid crystal composition of the present invention Values are 1%, 2%, 3%, 5%, 7%, 10%, 14%, 16%, 20%, 23%, 26%, 30%, 35% or 40%; relative to the liquid crystal of the present invention The total weight of the composition, the upper limit of the weight percentage of the compound of the general formula M11 in the liquid crystal composition of the present invention is preferably 50%, 40%, 35%, 30%, 20%, 15%, 10% or 5 %.

在本發明的一些實施方案中,通式M11的化合物優選RM1 為正丙基或正戊基、且RM2 為C2 H5 -的化合物,或優選RM1

Figure 02_image053
Figure 02_image055
、且RM2 為正丙基的化合物,或優選RM1 為正丙基、正丁基或正戊基、且RM2 為CH3 O-的化合物;特別優選RM1 為正丙基、且RM2 為C2 H5 -的化合物。In some embodiments of the invention, the compound of general formula M11 is preferably a compound where R M1 is n-propyl or n-pentyl, and R M2 is C 2 H 5 -, or preferably R M1 is
Figure 02_image053
or
Figure 02_image055
And R M2 is n-propyl, or preferably R M1 is n-propyl, n-butyl or n-pentyl, and R M2 is CH 3 O-; particularly preferably R M1 is n-propyl and R M2 is a C 2 H 5 -compound.

關於通式M13的化合物占本發明的液晶組合物的重量百分比優選:相對于本發明的液晶組合物的總重量,通式M13的化合物的占本發明的液晶組合物的重量百分比優選的下限值為1%,2%,3%,5%,7%,10%,14%,16%,20%,23%,26%,30%,35%或40%;相對于本發明的液晶組合物的總重量,通式M13的化合物的占本發明的液晶組合物的重量百分比優選的上限值為50%,40%,35%,30%,20%,15%,10%或5%。Regarding the weight percentage of the compound of the general formula M13 in the liquid crystal composition of the present invention, it is preferably: the lower limit of the weight percentage of the compound of the general formula M13 in the liquid crystal composition of the present invention relative to the total weight of the liquid crystal composition of the present invention Values are 1%, 2%, 3%, 5%, 7%, 10%, 14%, 16%, 20%, 23%, 26%, 30%, 35% or 40%; relative to the liquid crystal of the present invention The total weight of the composition, the upper limit of the weight percentage of the compound of the general formula M13 in the liquid crystal composition of the present invention is preferably 50%, 40%, 35%, 30%, 20%, 15%, 10% or 5 %.

在本發明的一些實施方案中,通式M13的化合物優選RM1 和RM2 各自獨立地表示含有2-5個碳原子的直鏈或支鏈烷基的化合物,或優選RM1 和RM2 中的一者為

Figure 02_image067
Figure 02_image069
、而另一者為CH3 -或C2 H5 -的化合物。In some embodiments of the present invention, the compounds of the general formula M13 preferably R M1 and R M2 each independently represent a compound of a linear or branched alkyl group containing 2-5 carbon atoms, or preferably R M1 and R M2 One of
Figure 02_image067
or
Figure 02_image069
And the other is a CH 3 -or C 2 H 5 -compound.

關於通式M15的化合物占本發明的液晶組合物的重量百分比優選:相對于本發明的液晶組合物的總重量,通式M15的化合物的占本發明的液晶組合物的重量百分比優選的下限值為1%,2%,3%,5%,7%,10%,12%,14%,16%,18%,20%,23%,26%,30%,35%或40%;相對于本發明的液晶組合物的總重量,通式M15的化合物的占本發明的液晶組合物的重量百分比優選的上限值為50%,40%,35%,30%,25%,22%,20%,18%,15%,12%,10%,8%或5%。With respect to the weight percentage of the compound of the general formula M15 in the liquid crystal composition of the present invention, it is preferably: the lower limit of the weight percentage of the compound of the general formula M15 in the liquid crystal composition of the present invention relative to the total weight of the liquid crystal composition of the present invention Values are 1%, 2%, 3%, 5%, 7%, 10%, 12%, 14%, 16%, 18%, 20%, 23%, 26%, 30%, 35% or 40%; With respect to the total weight of the liquid crystal composition of the present invention, the upper limit of the weight percentage of the compound of the general formula M15 in the liquid crystal composition of the present invention is preferably 50%, 40%, 35%, 30%, 25%, 22 %, 20%, 18%, 15%, 12%, 10%, 8% or 5%.

關於通式M16的化合物占本發明的液晶組合物的重量百分比優選:相對于本發明的液晶組合物的總重量,通式M16的化合物的占本發明的液晶組合物的重量百分比優選的下限值為1%,2%,3%,5%,7%,10%,12%,14%,16%,18%,20%,23%,26%,30%,35%或40%;相對于本發明的液晶組合物的總重量,通式M16的化合物的占本發明的液晶組合物的重量百分比優選的上限值為50%,40%,35%,30%,25%,22%,20%,18%,15%,12%,10%,8%或5%。With respect to the weight percentage of the compound of the general formula M16 in the liquid crystal composition of the present invention, it is preferably: the lower limit of the weight percentage of the compound of the general formula M16 in the liquid crystal composition of the present invention relative to the total weight of the liquid crystal composition of the present invention Values are 1%, 2%, 3%, 5%, 7%, 10%, 12%, 14%, 16%, 18%, 20%, 23%, 26%, 30%, 35% or 40%; With respect to the total weight of the liquid crystal composition of the present invention, the upper limit of the weight percentage of the compound of the general formula M16 in the liquid crystal composition of the present invention is preferably 50%, 40%, 35%, 30%, 25%, 22 %, 20%, 18%, 15%, 12%, 10%, 8% or 5%.

關於通式M20~M24的化合物的占本發明的液晶組合物的重量百分比優選:相對于本發明的液晶組合物的總重量,通式M20~M24的化合物的占本發明的液晶組合物的總重量百分比的優選的下限值為1%,2%,3%,5%,7%,10%,14%,16%或20%;相對于本發明的液晶組合物的總重量,通式M20~M24的化合物的占本發明的液晶組合物的總重量百分比的優選的上限值為30%,25%,23%,20%,18%,15%,12%,10%或5%。With respect to the weight percentage of the compounds of the general formula M20 to M24 in the liquid crystal composition of the present invention, it is preferred that the compounds of the general formula M20 to M24 account for the total of the liquid crystal composition of the present invention relative to the total weight of the liquid crystal composition of the present invention The preferred lower limit of the weight percentage is 1%, 2%, 3%, 5%, 7%, 10%, 14%, 16% or 20%; relative to the total weight of the liquid crystal composition of the present invention, the general formula The preferable upper limit value of the compounds of M20 to M24 as a percentage of the total weight of the liquid crystal composition of the present invention is 30%, 25%, 23%, 20%, 18%, 15%, 12%, 10% or 5% .

在本發明的一些實施方案中,通式A-1的化合物選自由如下化合物組成的組:

Figure 02_image137
A-1-1;
Figure 02_image139
A-1-2;
Figure 02_image141
A-1-3;
Figure 02_image143
A-1-4;
Figure 02_image145
A-1-5;
Figure 02_image147
A-1-6;
Figure 02_image149
A-1-7;
Figure 02_image151
A-1-8;
Figure 02_image153
A-1-9;
Figure 02_image155
A-1-10;
Figure 02_image157
A-1-11;
Figure 02_image159
A-1-12;
Figure 02_image161
A-1-13;
Figure 02_image163
A-1-14;
Figure 02_image165
A-1-15;
Figure 02_image167
A-1-16;
Figure 02_image169
A-1-17;以及
Figure 02_image171
A-1-18, 其中, RA1 表示含有1-8個碳原子的直鏈或支鏈的烷基、
Figure 02_image013
Figure 02_image015
Figure 02_image017
,所述含有1-8個碳原子的直鏈或支鏈的烷基中的1個或不相鄰的2個以上的-CH2 -可分別獨立地被-CH=CH-、-C≡C-、-O-、-CO-、-CO-O-或-O-CO-替代,並且存在於這些基團中的一個或更多個-H可分別獨立地被-F或-Cl取代; Rv 和Rw 各自獨立地表示-CH2 -或-O-; LA11 、LA12 、LA11 、LA12 、LA14 、LA15 和LA16 各自獨立地表示-H或-F; LA13 和LA13 各自獨立地表示-H或-CH3 ; XA1 表示-F、-CF3 或-OCF3 ;並且 v和w各自獨立地表示0或1。In some embodiments of the invention, the compound of general formula A-1 is selected from the group consisting of:
Figure 02_image137
A-1-1;
Figure 02_image139
A-1-2;
Figure 02_image141
A-1-3;
Figure 02_image143
A-1-4;
Figure 02_image145
A-1-5;
Figure 02_image147
A-1-6;
Figure 02_image149
A-1-7;
Figure 02_image151
A-1-8;
Figure 02_image153
A-1-9;
Figure 02_image155
A-1-10;
Figure 02_image157
A-1-11;
Figure 02_image159
A-1-12;
Figure 02_image161
A-1-13;
Figure 02_image163
A-1-14;
Figure 02_image165
A-1-15;
Figure 02_image167
A-1-16;
Figure 02_image169
A-1-17; and
Figure 02_image171
A-1-18, where R A1 represents a linear or branched alkyl group containing 1-8 carbon atoms,
Figure 02_image013
,
Figure 02_image015
or
Figure 02_image017
, One or two or more non-adjacent -CH 2 -in the linear or branched alkyl group containing 1-8 carbon atoms can be independently -CH=CH-, -C≡ C-, -O-, -CO-, -CO-O- or -O-CO- are substituted, and one or more -H present in these groups may be independently substituted by -F or -Cl, respectively ; R v and R w each independently represent -CH 2 -or -O-; L A11 , L A12 , L A11 ' , L A12 ' , L A14 , L A15 and L A16 each independently represent -H or -F ; L A13 and L A13 ' each independently represent -H or -CH 3 ; X A1 represents -F, -CF 3 or -OCF 3 ; and v and w each independently represent 0 or 1.

關於通式A-1的化合物占本發明的液晶組合物的重量百分比優選:相對于本發明的液晶組合物的總重量,通式A-1的化合物的占本發明的液晶組合物的重量百分比優選的下限值為0.1%,1%,2%,3%,4%,5%,6%,7%,8%,9%,10%,12%,14%,15%,17%,18%或20%;相對于本發明的液晶組合物的總重量,通式A-1的化合物的占本發明的液晶組合物的重量百分比優選的上限值為80%,75%,70%,65%,60%,55%,50%,45%,40%,35%,30%或25%。Regarding the weight percentage of the compound of the general formula A-1 in the liquid crystal composition of the present invention, it is preferably: the weight percentage of the compound of the general formula A-1 in the liquid crystal composition of the present invention relative to the total weight of the liquid crystal composition of the present invention The preferred lower limit is 0.1%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 12%, 14%, 15%, 17% , 18% or 20%; relative to the total weight of the liquid crystal composition of the present invention, the upper limit of the weight percentage of the compound of formula A-1 in the liquid crystal composition of the present invention is preferably 80%, 75%, 70 %, 65%, 60%, 55%, 50%, 45%, 40%, 35%, 30% or 25%.

在本發明的一些實施方案中,通式A-1的化合物占液晶組合物的重量百分比為0.1%-80%。In some embodiments of the present invention, the compound of the general formula A-1 accounts for 0.1%-80% by weight of the liquid crystal composition.

關於通式A-1的化合物的優選含量,在將本發明的液晶組合物的粘度保持為較低、且回應速度快的情況下,優選使其下限值略低、且使上限值略低;進一步地,在將本發明的液晶組合物的清亮點保持為較高、且溫度穩定性良好的情況下,優選使其下限值略低、且使上限值略低;此外,為了將驅動電壓保持為較低、而欲增大介電各向異性的絕對值時,優選使其下限值略高、且使上限值略高。Regarding the preferable content of the compound of the general formula A-1, when the viscosity of the liquid crystal composition of the present invention is kept low and the response speed is fast, it is preferable to make the lower limit value slightly lower and the upper limit value slightly Further, in the case where the clearing point of the liquid crystal composition of the present invention is kept high and the temperature stability is good, it is preferable to make the lower limit value slightly lower and the upper limit value slightly lower; When the driving voltage is kept low and the absolute value of dielectric anisotropy is to be increased, it is preferable to make the lower limit value slightly higher and the upper limit value slightly higher.

在本發明的一些實施方案中,通式A-1的化合物優選地選自由通式A-1-1、通式A-1-4、通式A-1-7、通式A-1-13、通式A-1-14、通式A-1-15、通式A-1-16和通式A-1-17的化合物組成的組。In some embodiments of the invention, the compound of general formula A-1 is preferably selected from the group consisting of general formula A-1-1, general formula A-1-4, general formula A-1-7, general formula A-1- 13. A group consisting of compounds of general formula A-1-14, general formula A-1-15, general formula A-1-16 and general formula A-1-17.

在本發明的一些實施方案中,通式A-2的化合物選自由如下化合物組成的組:

Figure 02_image173
A-2-1;
Figure 02_image175
A-2-2;
Figure 02_image177
A-2-3;
Figure 02_image179
A-2-4;
Figure 02_image181
A-2-5;
Figure 02_image183
A-2-6;
Figure 02_image185
A-2-7;
Figure 02_image187
A-2-8;
Figure 02_image189
A-2-9;
Figure 02_image191
A-2-10;
Figure 02_image193
A-2-11;
Figure 02_image195
A-2-12;
Figure 02_image197
A-2-13;
Figure 02_image199
A-2-14;以及
Figure 02_image201
A-2-15, 其中, RA2 表示含有1-8個碳原子的直鏈或支鏈的烷基,所述含有1-8個碳原子的直鏈或支鏈的烷基中的1個或不相鄰的2個以上的-CH2 -可分別獨立地被-CH=CH-、-C≡C-、-O-、-CO-、-CO-O-或-O-CO-替代,並且存在於這些基團中的一個或更多個-H可分別獨立地被-F或-Cl取代; LA21 、LA22 、LA23 、LA24 和LA25 各自獨立地表示-H或-F;並且 XA21 表示-F、-CF3 、-OCF3 或-CH2 CH2 CH=CF2 。In some embodiments of the invention, the compound of general formula A-2 is selected from the group consisting of:
Figure 02_image173
A-2-1;
Figure 02_image175
A-2-2;
Figure 02_image177
A-2-3;
Figure 02_image179
A-2-4;
Figure 02_image181
A-2-5;
Figure 02_image183
A-2-6;
Figure 02_image185
A-2-7;
Figure 02_image187
A-2-8;
Figure 02_image189
A-2-9;
Figure 02_image191
A-2-10;
Figure 02_image193
A-2-11;
Figure 02_image195
A-2-12;
Figure 02_image197
A-2-13;
Figure 02_image199
A-2-14; and
Figure 02_image201
A-2-15, wherein R A2 represents a linear or branched alkyl group containing 1-8 carbon atoms, one of the linear or branched alkyl groups containing 1-8 carbon atoms Or two or more non-adjacent -CH 2 -can be independently replaced by -CH=CH-, -C≡C-, -O-, -CO-, -CO-O-, or -O-CO- , And one or more -H present in these groups may be independently substituted by -F or -Cl; L A21 , L A22 , L A23 , L A24 and L A25 each independently represent -H or- F; and X A21 represents -F, -CF 3 , -OCF 3 or -CH 2 CH 2 CH=CF 2 .

關於通式A-2的化合物占本發明的液晶組合物的重量百分比優選:相對于本發明的液晶組合物的總重量,通式A-2的化合物的占本發明的液晶組合物的重量百分比優選的下限值為0.1%,1%,2%,3%,4%,5%,6%,7%,8%,9%,10%,12%,14%,15%,17%,18%或20%;相對于本發明的液晶組合物的總重量,通式A-2的化合物的占本發明的液晶組合物的重量百分比優選的上限值為80%,75%,70%,65%,60%,55%,50%,45%,40%,35%,30%或25%。Regarding the weight percentage of the compound of the general formula A-2 in the liquid crystal composition of the present invention, it is preferably: the weight percentage of the compound of the general formula A-2 in the liquid crystal composition of the present invention relative to the total weight of the liquid crystal composition of the present invention The preferred lower limit is 0.1%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%, 12%, 14%, 15%, 17% , 18% or 20%; relative to the total weight of the liquid crystal composition of the present invention, the upper limit of the weight percentage of the compound of formula A-2 in the liquid crystal composition of the present invention is preferably 80%, 75%, 70 %, 65%, 60%, 55%, 50%, 45%, 40%, 35%, 30% or 25%.

在本發明的一些實施方案中,通式A-2的化合物占液晶組合物的重量百分比為0.1%-80%。In some embodiments of the present invention, the compound of the general formula A-2 accounts for 0.1%-80% by weight of the liquid crystal composition.

關於通式A-2的化合物的優選含量,在將本發明的液晶組合物的粘度保持為較低、且回應速度快的情況下,優選使其下限值略低、且使上限值略低;進一步地,在將本發明的液晶組合物的清亮點保持為較高、且溫度穩定性良好的情況下,優選使其下限值略低、且使上限值略低;此外,為了將驅動電壓保持為較低、而欲增大介電各向異性的絕對值時,優選使其下限值略高、且使上限值略高。Regarding the preferable content of the compound of the general formula A-2, when the viscosity of the liquid crystal composition of the present invention is kept low and the response speed is fast, it is preferable to make the lower limit value slightly lower and the upper limit value slightly Further, in the case where the clearing point of the liquid crystal composition of the present invention is kept high and the temperature stability is good, it is preferable to make the lower limit value slightly lower and the upper limit value slightly lower; When the driving voltage is kept low and the absolute value of dielectric anisotropy is to be increased, it is preferable to make the lower limit value slightly higher and the upper limit value slightly higher.

在本發明的一些實施方案中,通式A-2的化合物優選地選自由通式A-2-4、通式A-2-8、通式A-2-11和通式A-2-12的化合物組成的組。In some embodiments of the invention, the compound of general formula A-2 is preferably selected from the group consisting of general formula A-2-4, general formula A-2-8, general formula A-2-11 and general formula A-2- Group of 12 compounds.

除上述化合物以外,本發明的液晶組合物也可含有通常的向列型液晶、近晶型液晶、膽固醇型液晶、抗氧化劑、紫外線吸收劑、紅外線吸收劑、聚合性單體或光穩定劑等。In addition to the above-mentioned compounds, the liquid crystal composition of the present invention may contain general nematic liquid crystal, smectic liquid crystal, cholesteric liquid crystal, antioxidant, ultraviolet absorber, infrared absorber, polymerizable monomer, light stabilizer, etc. .

如下顯示優選加入到根據本發明的液晶組合物中的可能的摻雜劑。

Figure 02_image203
Figure 02_image205
Figure 02_image207
Figure 02_image209
Figure 02_image211
Figure 02_image213
Figure 02_image215
Figure 02_image217
Figure 02_image219
Figure 02_image221
Figure 02_image223
Figure 02_image225
;以及
Figure 02_image227
。The following shows possible dopants preferably added to the liquid crystal composition according to the present invention.
Figure 02_image203
;
Figure 02_image205
;
Figure 02_image207
;
Figure 02_image209
;
Figure 02_image211
;
Figure 02_image213
;
Figure 02_image215
;
Figure 02_image217
;
Figure 02_image219
;
Figure 02_image221
;
Figure 02_image223
;
Figure 02_image225
;as well as
Figure 02_image227
.

在本發明的一些實施方案中,優選地,摻雜劑占液晶組合物的重量百分比為0-5%;更優選地,摻雜劑占液晶組合物的重量百分比為0-1%。In some embodiments of the present invention, preferably, the weight percentage of the dopant in the liquid crystal composition is 0-5%; more preferably, the weight percentage of the dopant in the liquid crystal composition is 0-1%.

另外,本發明的液晶組合物所使用的抗氧化劑、光穩定劑等添加劑優選以下物質:

Figure 108138166-A0304-0001
其中,n表示1-12的正整數。In addition, additives such as antioxidants and light stabilizers used in the liquid crystal composition of the present invention are preferably the following:
Figure 108138166-A0304-0001
Among them, n represents a positive integer of 1-12.

優選地,光穩定劑選自如下所示的光穩定劑:

Figure 108138166-A0304-0002
Preferably, the light stabilizer is selected from the following light stabilizers:
Figure 108138166-A0304-0002

在本發明的一些實施方案中,優選地,光穩定劑占液晶組合物的總重量百分比為0-5%;更優選地,光穩定劑占液晶組合物的總重量百分比為0-1%;特別優選地,光穩定劑占液晶組合物的總重量百分比為0.01-0.1%。In some embodiments of the present invention, preferably, the light stabilizer accounts for 0-5% of the total weight of the liquid crystal composition; more preferably, the light stabilizer accounts for 0-1% of the total weight of the liquid crystal composition; Particularly preferably, the light stabilizer accounts for 0.01-0.1% of the total weight of the liquid crystal composition.

本發明另一方面還提供一種液晶顯示器件,所述液晶顯示器件包含本發明所提供的液晶組合物。Another aspect of the present invention also provides a liquid crystal display device including the liquid crystal composition provided by the present invention.

有益效果: 本發明提供的液晶組合物在維持適當的清亮點的情況下,還具有較大的光學各向異性、較大的介電各向異性、較低的旋轉粘度、較好的低溫存儲穩定性、較大的Kave 值、以及較大的VHR(初始)和VHR(UV)和VHR(高溫)(即較好的可靠性),使得包含本發明的液晶組合物的液晶顯示器件具有較小的光散射、以及較高的對比度,特別適用於主動矩陣薄膜電晶體(AM-TFT)驅動的液晶顯示元件中。 Beneficial effect: The liquid crystal composition provided by the present invention has greater optical anisotropy, greater dielectric anisotropy, lower rotational viscosity, and better low-temperature storage while maintaining an appropriate clearing point Stability, larger Kave value, and larger VHR (initial) and VHR (UV) and VHR (high temperature) (that is, better reliability) make the liquid crystal display device containing the liquid crystal composition of the present invention have Less light scattering and higher contrast ratio are especially suitable for liquid crystal display devices driven by active matrix thin film transistors (AM-TFT).

以下將結合具體實施方案來說明本發明。需要說明的是,下面的實施例為本發明的示例,僅用來說明本發明,而不用來限制本發明。在不偏離本發明主旨或範圍的情況下,可進行本發明構思內的其他組合和各種改良。The present invention will be described below in conjunction with specific embodiments. It should be noted that the following embodiments are examples of the present invention, which are only used to illustrate the present invention, but not to limit the present invention. Other combinations and various improvements within the concept of the present invention can be made without departing from the gist or scope of the present invention.

在本發明中如無特殊說明,所述的比例均為重量比,所有溫度均為攝氏度溫度。In the present invention, unless otherwise specified, the ratios are weight ratios, and all temperatures are degrees Celsius.

為便於表達,以下各實施例中,液晶組合物的基團結構用表1所列的代碼表示: 表1 液晶化合物的基團結構代碼

Figure 108138166-A0304-0003
For ease of expression, in the following examples, the group structure of the liquid crystal composition is represented by the codes listed in Table 1: Table 1 Group structure codes of liquid crystal compounds
Figure 108138166-A0304-0003

以如下結構式的化合物為例:

Figure 02_image314
該結構式如用表1所列代碼表示,則可表達為:nCCGF,代碼中的n表示左端烷基的C原子數,例如n為“3”,即表示該烷基為-C3 H7 ;代碼中的C代表環己烷基,G代表2-氟-1,4-亞苯基,F代表氟。Take the following structural formula as an example:
Figure 02_image314
If the structural formula is represented by the code listed in Table 1, it can be expressed as: nCCGF, n in the code represents the number of C atoms of the left alkyl group, for example, n is "3", which means that the alkyl group is -C 3 H 7 ; C in the code represents cyclohexane, G represents 2-fluoro-1,4-phenylene, and F represents fluorine.

以下實施例中測試專案的簡寫代號如下: Cp                             清亮點(向列相-各向同性相的轉變溫度,℃) Δn                             光學各向異性(589 nm,25℃) ε 垂直于分子軸方向上的介電常數 Δε                              介電各向異性(1 KHz,25℃) γ1                              旋轉粘度(mPa.s,25℃,除非另有說明) K11 展曲彈性常數 K22 扭曲彈性常數 K33 彎曲彈性常數 Kave 平均彈性常數 LTS                           低溫存儲穩定性(℃,儲存500 h而不析晶的溫度) VHR(初始)          初始電壓保持率(%) VHR(UV)             UV光照射後的電壓保持率(%) VHR(高溫)          150℃下在高溫保持1 h後的電壓保持率(%)The abbreviated codes of the test items in the following examples are as follows: Cp clearing point (nematic phase-isotropic phase transition temperature, ℃) Δn optical anisotropy (589 nm, 25℃) ε perpendicular to the molecular axis Dielectric constant Δε Dielectric anisotropy (1 KHz, 25°C) γ1 Rotational viscosity (mPa·s, 25°C, unless otherwise specified) K 11 Spreading elastic constant K 22 Twisting elastic constant K 33 Flexural elastic constant K ave Average elastic constant LTS Low temperature storage stability (℃, storage temperature 500 hours without crystallization) VHR (initial) Initial voltage retention rate (%) VHR (UV) Voltage retention rate after UV light irradiation (%) VHR (high temperature ) Voltage retention rate (%) after maintaining at 150℃ for 1 h at high temperature

其中,光學各向異性使用阿貝折光儀在鈉光燈(589 nm)光源下、25℃測試得。Among them, the optical anisotropy was measured with an Abbe refractometer under a sodium light (589 nm) light source at 25°C.

Δε=ε ,其中,ε 為平行于分子軸的介電常數,ε 為垂直于分子軸的介電常數,測試條件:25℃、1 KHz、測試盒為TN90型,盒厚7 μm。Δε=ε , where ε is the dielectric constant parallel to the molecular axis, ε is the dielectric constant perpendicular to the molecular axis, test conditions: 25℃, 1 KHz, the test box is TN90 type, box 7 μm thick.

γ1使用TOYO6254型液晶物性評價系統測試得到;測試溫度為25℃,測試電壓為90 V,測試盒厚為20 μm。γ1 was tested using the TOYO6254 liquid crystal physical property evaluation system; the test temperature was 25°C, the test voltage was 90 V, and the test cell thickness was 20 μm.

K11 、K22 、K33 是使用LCR儀和反平行摩擦盒,測試液晶的C-V曲線計算所得,測試條件:7 μm反平行摩擦盒,V=0.1~20 V;Kave =

Figure 02_image316
(K11 +K22 +K33 )。K 11 , K 22 and K 33 are calculated by using the LCR instrument and anti-parallel friction box to test the CV curve of the liquid crystal. Test conditions: 7 μm anti-parallel friction box, V=0.1~20 V; K ave =
Figure 02_image316
(K 11 +K 22 +K 33 ).

VHR(初始)是使用TOY06254型液晶物性評價系統測試得到的;測試溫度為60℃,測試電壓為5 V,測試頻率為6 Hz,測試盒厚為9 μm。VHR (initial) is obtained by using TOY06254 liquid crystal physical property evaluation system; the test temperature is 60℃, the test voltage is 5 V, the test frequency is 6 Hz, and the test cell thickness is 9 μm.

VHR(UV)是使用TOY06254型液晶物性評價系統測試得到的;使用波長為365 nm、能量為6000 mJ/cm2 的UV光照射液晶材料後進行測試,測試溫度為60℃,測試電壓為5 V,測試頻率為6 Hz,測試盒厚為9 μm。VHR (UV) is obtained by using TOY06254 liquid crystal physical property evaluation system; UV light with a wavelength of 365 nm and an energy of 6000 mJ/cm 2 is used to test the liquid crystal material. The test temperature is 60°C and the test voltage is 5 V With a test frequency of 6 Hz and a test box thickness of 9 μm.

VHR(高溫)是使用TOY06254型液晶物性評價系統測試得到的;將液晶材料在150℃下在高溫保持1 h後進行測試,測試溫度為60℃,測試電壓為5 V,測試頻率為6 Hz,測試盒厚為9 μm。VHR (high temperature) is obtained by using the TOY06254 liquid crystal physical property evaluation system; the liquid crystal material is tested at 150 ℃ at high temperature for 1 h, the test temperature is 60 ℃, the test voltage is 5 V, and the test frequency is 6 Hz, The thickness of the test box is 9 μm.

在以下的實施例中所採用的各成分,均可以通過公知的方法進行合成,或者通過商業途徑獲得。這些合成技術是常規的,所得到各液晶化合物經測試符合電子類化合物標準。Each component used in the following examples can be synthesized by a well-known method or obtained through a commercial route. These synthesis techniques are conventional, and the resulting liquid crystal compounds have been tested to meet the standards for electronic compounds.

按照以下實施例規定的各液晶組合物的配比,製備液晶組合物。所述液晶組合物的製備是按照本領域的常規方法進行的,如採取加熱、超聲波、懸浮等方式按照規定比例混合制得。The liquid crystal composition was prepared according to the ratio of each liquid crystal composition specified in the following examples. The preparation of the liquid crystal composition is carried out according to a conventional method in the art, such as heating, ultrasonic waves, suspension, etc. in a prescribed ratio.

製備並研究下列實施例中給出的液晶組合物。下面顯示了各液晶組合物的組成和其性能參數測試結果。The liquid crystal compositions given in the following examples were prepared and studied. The composition of each liquid crystal composition and the test results of its performance parameters are shown below.

對比例Comparative example 11

按表2中所列的各化合物及重量百分數配製成對比例1的液晶組合物,其填充於液晶顯示器兩基板之間進行性能測試,測試資料如下表所示: 表2 液晶組合物配方及其測試性能

Figure 108138166-A0304-0004
The liquid crystal composition of Comparative Example 1 was prepared according to the compounds and weight percentages listed in Table 2, which was filled between the two substrates of the liquid crystal display for performance testing. The test data is shown in the following table: Table 2 Liquid crystal composition formulation and Its test performance
Figure 108138166-A0304-0004

實施例Examples 11

按表3中所列的各化合物及重量百分數配製成實施例1的液晶組合物,其填充於液晶顯示器兩基板之間進行性能測試,測試資料如下表所示: 表3 液晶組合物配方及其測試性能

Figure 108138166-A0304-0005
The liquid crystal composition of Example 1 is prepared according to the compounds and weight percentages listed in Table 3, which is filled between the two substrates of the liquid crystal display for performance testing. The test data is shown in the following table: Table 3 Liquid crystal composition formulation and Its test performance
Figure 108138166-A0304-0005

實施例Examples 22

按表4中所列的各化合物及重量百分數配製成實施例2的液晶組合物,其填充於液晶顯示器兩基板之間進行性能測試,測試資料如下表所示: 表4 液晶組合物配方及其測試性能

Figure 108138166-A0304-0006
The liquid crystal composition of Example 2 is prepared according to the compounds and weight percentages listed in Table 4, which is filled between two substrates of a liquid crystal display for performance testing. The test data is shown in the following table: Table 4 Liquid crystal composition formulation and Its test performance
Figure 108138166-A0304-0006

實施例Examples 33

按表5中所列的各化合物及重量百分數配製成實施例3的液晶組合物,其填充於液晶顯示器兩基板之間進行性能測試,測試資料如下表所示: 表5 液晶組合物配方及其測試性能

Figure 108138166-A0304-0007
The liquid crystal composition of Example 3 is prepared according to the compounds and weight percentages listed in Table 5, which is filled between two substrates of the liquid crystal display for performance testing. The test data is shown in the following table: Table 5 Liquid crystal composition formulation and Its test performance
Figure 108138166-A0304-0007

實施例Examples 44

按表6中所列的各化合物及重量百分數配製成實施例4的液晶組合物,其填充於液晶顯示器兩基板之間進行性能測試,測試資料如下表所示: 表6 液晶組合物配方及其測試性能

Figure 108138166-A0304-0008
The liquid crystal composition of Example 4 is prepared according to the compounds and weight percentages listed in Table 6, which is filled between two substrates of a liquid crystal display for performance testing. The test data is shown in the following table: Table 6 Liquid crystal composition formulation and Its test performance
Figure 108138166-A0304-0008

實施例Examples 55

按表7中所列的各化合物及重量百分數配製成實施例5的液晶組合物,其填充於液晶顯示器兩基板之間進行性能測試,測試資料如下表所示: 表7 液晶組合物配方及其測試性能

Figure 108138166-A0304-0009
The liquid crystal composition of Example 5 was prepared according to the compounds and weight percentages listed in Table 7, which was filled between the two substrates of the liquid crystal display for performance testing. The test data is shown in the following table: Table 7 Liquid crystal composition formulation and Its test performance
Figure 108138166-A0304-0009

為了突出本發明的液晶組合物的有益效果,發明人選取了和本發明的實施例體系相近的對比例。從以上對比例1和實施例1-5可以看出,本發明提供的液晶組合物在維持適當的清亮點的情況下,還具有較大的光學各向異性、較大的介電各向異性、較低的旋轉粘度、較好的低溫存儲穩定性、較大的Kave 值、以及較大的VHR(初始)和VHR(UV)和VHR(高溫)(即較好的可靠性),使得包含本發明的液晶組合物的液晶顯示器件具有較小的光散射、以及較高的對比度,特別適用於主動矩陣薄膜電晶體(AM-TFT)驅動的液晶顯示元件中。In order to highlight the beneficial effects of the liquid crystal composition of the present invention, the inventor selected a comparative example similar to the example system of the present invention. As can be seen from the above Comparative Example 1 and Examples 1-5, the liquid crystal composition provided by the present invention also has greater optical anisotropy and greater dielectric anisotropy while maintaining an appropriate clearing point , Lower rotational viscosity, better low-temperature storage stability, larger K ave value, and larger VHR (initial) and VHR (UV) and VHR (high temperature) (that is, better reliability), making The liquid crystal display device comprising the liquid crystal composition of the present invention has less light scattering and higher contrast, and is particularly suitable for active matrix thin film transistor (AM-TFT) driven liquid crystal display elements.

以上實施方式只為說明本發明的技術構思及特點,其目的在於讓熟悉此項技術的人瞭解本發明內容並加以實施,並不能以此限制本發明的保護範圍,凡根據本發明精神實質所做的等效變化或修飾,都應涵蓋在本發明的保護範圍內。The above embodiments are only for explaining the technical concept and features of the present invention. The purpose is to allow those familiar with the technology to understand and implement the content of the present invention, and cannot limit the scope of protection of the present invention. The equivalent changes or modifications made should be covered in the protection scope of the present invention.

Figure 108138166-A0101-11-0001-1
Figure 108138166-A0101-11-0001-1

Claims (14)

一種液晶組合物,該液晶組合物包含: 一種或多種通式Ⅱ的化合物
Figure 03_image005
Ⅱ; 一種或多種通式M的化合物
Figure 03_image007
M; 一種或多種通式A-1的化合物
Figure 03_image009
A-1;以及 一種或多種通式A-2的化合物
Figure 03_image011
A-2, 其中, R2 表示-H、含有1-12個碳原子的直鏈的烷基或烷氧基、含有2-12個碳原子的烯基或烯氧基; RM1 和RM2 各自獨立地表示-H、含有1-12個碳原子的直鏈或支鏈的烷基、
Figure 03_image013
Figure 03_image015
Figure 03_image017
,所述含有1-12個碳原子的直鏈或支鏈的烷基中的1個或不相鄰的2個以上的-CH2 -可分別獨立地被-CH=CH-、-C≡C-、-O-、-CO-、-CO-O-或-O-CO-替代; RA1 和RA2 各自獨立地表示含有1-12個碳原子的直鏈或支鏈的烷基、
Figure 03_image013
Figure 03_image015
Figure 03_image017
,所述含有1-12個碳原子的直鏈或支鏈的烷基中的1個或不相鄰的2個以上的-CH2 -可分別獨立地被-CH=CH-、-C≡C-、-O-、-CO-、-CO-O-或-O-CO-替代,並且所述含有1-12個碳原子的直鏈或支鏈的烷基、
Figure 03_image013
Figure 03_image015
Figure 03_image017
中的一個或更多個-H可分別獨立地被-F或-Cl取代; ZM1 和ZM2 各自獨立地表示單鍵、-CO-O-、-O-CO-、-CH2 O-、-OCH2 -、-CH=CH-、-C≡C-、-CH2 CH2 -或-(CH2 )4 -; ZA11 、ZA21 和ZA22 各自獨立地表示單鍵、-CH2 CH2 -、-CF2 CF2 -、-CO-O-、-O-CO-、-O-CO-O-、-CH=CH-、-CF=CF-、-CH2 O-或-OCH2 -; LA11 、LA12 、LA13 、LA21 和LA22 各自獨立地表示-H、含有1-3個碳原子的烷基或鹵素; XA1 和XA2 各自獨立地表示鹵素、含有1-5個碳原子的鹵代烷基或鹵代烷氧基、含有2-5個碳原子的鹵代烯基或鹵代烯氧基; 環
Figure 03_image019
表示
Figure 03_image021
Figure 03_image023
; 環
Figure 03_image025
、環
Figure 03_image027
和環
Figure 03_image029
各自獨立地表示
Figure 03_image021
Figure 03_image023
,其中,
Figure 03_image021
中的一個或更多個-CH2 -可被-O-替代,
Figure 03_image023
中的至多一個-H可被鹵素取代; 環
Figure 03_image031
、環
Figure 03_image033
、環
Figure 03_image035
和環
Figure 03_image037
各自獨立地表示
Figure 03_image039
Figure 03_image021
Figure 03_image023
Figure 03_image041
,其中,
Figure 03_image039
Figure 03_image021
Figure 03_image041
中一個或更多個-CH2 -可被-O-替代,一個或更多個環中單鍵可被雙鍵替代,
Figure 03_image023
Figure 03_image041
中的一個或更多個-H可被-CN、-F或-Cl取代,一個或更多個環中-CH=可被-N=替代; a和b各自獨立地表示0至5的整數; nM1 、nA11 和nA2 各自獨立地表示0、1、2或3,且當nM1 =2或3時,環
Figure 03_image027
可以相同或不同,ZM2 可以相同或不同;當nA11 =2或3時,環
Figure 03_image031
可以相同或不同,ZA11 可以相同或不同;當nA2 =2或3時,環
Figure 03_image035
可以相同或不同,ZA21 可以相同或不同; nA12 表示1或2,且當nA12 =2時,環
Figure 03_image043
可以相同或不同;並且 該通式M的化合物中並不包含該通式Ⅱ的化合物。
A liquid crystal composition comprising: one or more compounds of general formula II
Figure 03_image005
Ⅱ; one or more compounds of general formula M
Figure 03_image007
M; one or more compounds of general formula A-1
Figure 03_image009
A-1; and one or more compounds of general formula A-2
Figure 03_image011
A-2, wherein R 2 represents -H, a linear alkyl group or alkoxy group containing 1-12 carbon atoms, an alkenyl group or alkenoxy group containing 2-12 carbon atoms; R M1 and R M2 Each independently represents -H, a linear or branched alkyl group containing 1-12 carbon atoms,
Figure 03_image013
,
Figure 03_image015
or
Figure 03_image017
, The linear or branched alkyl group containing 1-12 carbon atoms, one or two or more non-adjacent -CH 2 -can be independently -CH=CH-, -C≡ C-, -O-, -CO-, -CO-O- or -O-CO- substitution; R A1 and R A2 each independently represent a linear or branched alkyl group containing 1-12 carbon atoms,
Figure 03_image013
,
Figure 03_image015
or
Figure 03_image017
, The linear or branched alkyl group containing 1-12 carbon atoms, one or two or more non-adjacent -CH 2 -can be independently -CH=CH-, -C≡ C-, -O-, -CO-, -CO-O- or -O-CO-, and the linear or branched alkyl group containing 1-12 carbon atoms,
Figure 03_image013
,
Figure 03_image015
or
Figure 03_image017
One or more of -H may be independently substituted by -F or -Cl; Z M1 and Z M2 each independently represent a single bond, -CO-O-, -O-CO-, -CH 2 O- , -OCH 2 -, -CH=CH-, -C≡C-, -CH 2 CH 2 -or -(CH 2 ) 4 -; Z A11 , Z A21 and Z A22 each independently represent a single bond, -CH 2 CH 2 -, -CF 2 CF 2 -, -CO-O-, -O-CO-, -O-CO-O-, -CH=CH-, -CF=CF-, -CH 2 O- or -OCH 2 -; L A11 , L A12 , L A13 , L A21 and L A22 each independently represent -H, an alkyl group containing 1-3 carbon atoms or halogen; X A1 and X A2 each independently represent halogen, Haloalkyl or haloalkoxy containing 1-5 carbon atoms, haloalkenyl or haloalkenyloxy containing 2-5 carbon atoms; ring
Figure 03_image019
Express
Figure 03_image021
or
Figure 03_image023
; Ring
Figure 03_image025
,ring
Figure 03_image027
And ring
Figure 03_image029
Express independently
Figure 03_image021
or
Figure 03_image023
,among them,
Figure 03_image021
One or more of -CH 2 -can be replaced by -O-,
Figure 03_image023
At most one of -H may be substituted by halogen; ring
Figure 03_image031
,ring
Figure 03_image033
,ring
Figure 03_image035
And ring
Figure 03_image037
Express independently
Figure 03_image039
,
Figure 03_image021
,
Figure 03_image023
or
Figure 03_image041
,among them,
Figure 03_image039
,
Figure 03_image021
with
Figure 03_image041
One or more -CH 2 -may be replaced by -O-, one or more single bonds in the ring may be replaced by double bonds,
Figure 03_image023
with
Figure 03_image041
One or more of -H may be replaced by -CN, -F or -Cl, and one or more rings -CH= may be replaced by -N=; a and b each independently represent an integer from 0 to 5 ; N M1 , n A11 and n A2 each independently represent 0, 1, 2 or 3, and when n M1 = 2 or 3, the ring
Figure 03_image027
Can be the same or different, Z M2 can be the same or different; when n A11 = 2 or 3, the ring
Figure 03_image031
Can be the same or different, Z A11 can be the same or different; when n A2 = 2 or 3, the ring
Figure 03_image035
May be the same or different, Z A21 may be the same or different; n A12 represents 1 or 2, and when n A12 = 2, the ring
Figure 03_image043
May be the same or different; and the compound of formula M does not include the compound of formula II.
如申請專利範圍第1項所述之液晶組合物,其中,該通式Ⅱ的化合物占該液晶組合物的重量百分比為0.1%-50%。The liquid crystal composition as described in item 1 of the patent application range, wherein the compound of formula II accounts for 0.1%-50% by weight of the liquid crystal composition. 如申請專利範圍第1或2項所述之液晶組合物,其中,該通式Ⅱ的化合物選自由如下化合物組成的組:
Figure 03_image045
Ⅱ-1;
Figure 03_image047
Ⅱ-2;
Figure 03_image049
Ⅱ-3;以及
Figure 03_image051
Ⅱ-4, 其中, Lx 表示-H或-CH3
The liquid crystal composition according to item 1 or 2 of the patent application scope, wherein the compound of the general formula II is selected from the group consisting of:
Figure 03_image045
Ⅱ-1;
Figure 03_image047
Ⅱ-2;
Figure 03_image049
Ⅱ-3; and
Figure 03_image051
Ⅱ-4, where L x represents -H or -CH 3 .
如申請專利範圍第3項所述之液晶組合物,其中,該通式Ⅱ的化合物優選自由該通式Ⅱ-3和該通式Ⅱ-4的化合物組成的組。The liquid crystal composition as described in item 3 of the patent application range, wherein the compound of the general formula II is preferably selected from the group consisting of the compound of the general formula II-3 and the compound of the general formula II-4. 如申請專利範圍第4項所述之液晶組合物,其中,該液晶組合物中含有至少一種該通式Ⅱ-4的化合物。The liquid crystal composition as described in item 4 of the patent application range, wherein the liquid crystal composition contains at least one compound of the general formula II-4. 如申請專利範圍第5項所述之液晶組合物,其中,該液晶組合物中含有至少兩種該通式Ⅱ的化合物,其中至少一種通式Ⅱ的化合物選自該通式Ⅱ-4的化合物。The liquid crystal composition according to Item 5 of the patent application scope, wherein the liquid crystal composition contains at least two compounds of the general formula II, wherein at least one compound of the general formula II is selected from the compounds of the general formula II-4 . 如申請專利範圍第6項所述之液晶組合物,其中,該液晶組合物中含有至少兩種該通式Ⅱ-4的化合物。The liquid crystal composition as described in Item 6 of the patent application range, wherein the liquid crystal composition contains at least two compounds of the general formula II-4. 如申請專利範圍第1項所述之液晶組合物,其中,該通式M的化合物選自由如下化合物組成的組:
Figure 03_image089
M1;
Figure 03_image091
M2;
Figure 03_image093
M3;
Figure 03_image095
M4;
Figure 03_image097
M5;
Figure 03_image099
M6;
Figure 03_image101
M7;
Figure 03_image103
M8;
Figure 03_image105
M9;
Figure 03_image107
M10;
Figure 03_image109
M11;
Figure 03_image111
M12;
Figure 03_image113
M13;
Figure 03_image115
M14;
Figure 03_image117
M15;
Figure 03_image119
M16;
Figure 03_image121
M17;
Figure 03_image123
M18;
Figure 03_image125
M19;
Figure 03_image127
M20;
Figure 03_image129
M21;
Figure 03_image131
M22;
Figure 03_image133
M23;以及
Figure 03_image135
M24。
The liquid crystal composition according to item 1 of the patent application scope, wherein the compound of the general formula M is selected from the group consisting of:
Figure 03_image089
M1;
Figure 03_image091
M2;
Figure 03_image093
M3;
Figure 03_image095
M4;
Figure 03_image097
M5;
Figure 03_image099
M6;
Figure 03_image101
M7;
Figure 03_image103
M8;
Figure 03_image105
M9;
Figure 03_image107
M10;
Figure 03_image109
M11;
Figure 03_image111
M12;
Figure 03_image113
M13;
Figure 03_image115
M14;
Figure 03_image117
M15;
Figure 03_image119
M16;
Figure 03_image121
M17;
Figure 03_image123
M18;
Figure 03_image125
M19;
Figure 03_image127
M20;
Figure 03_image129
M21;
Figure 03_image131
M22;
Figure 03_image133
M23; and
Figure 03_image135
M24.
如申請專利範圍第1或8項所述之液晶組合物,其中,該通式M的化合物占該液晶組合物的重量百分比為0.1%-90%。The liquid crystal composition as described in item 1 or 8 of the patent application range, wherein the compound of the general formula M accounts for 0.1%-90% by weight of the liquid crystal composition. 如申請專利範圍第1項所述之液晶組合物,其中,該通式A-1的化合物選自由如下化合物組成的組:
Figure 03_image137
A-1-1;
Figure 03_image139
A-1-2;
Figure 03_image141
A-1-3;
Figure 03_image143
A-1-4;
Figure 03_image145
A-1-5;
Figure 03_image147
A-1-6;
Figure 03_image149
A-1-7;
Figure 03_image151
A-1-8;
Figure 03_image153
A-1-9;
Figure 03_image155
A-1-10;
Figure 03_image157
A-1-11;
Figure 03_image159
A-1-12;
Figure 03_image161
A-1-13;
Figure 03_image163
A-1-14;
Figure 03_image165
A-1-15;
Figure 03_image167
A-1-16;
Figure 03_image169
A-1-17;以及
Figure 03_image171
A-1-18, 其中, RA1 表示含有1-8個碳原子的直鏈或支鏈的烷基、
Figure 03_image013
Figure 03_image015
Figure 03_image017
,該含有1-8個碳原子的直鏈或支鏈的烷基中的1個或不相鄰的2個以上的-CH2 -可分別獨立地被-CH=CH-、-C≡C-、-O-、-CO-、-CO-O-或-O-CO-替代,並且存在於這些基團中的一個或更多個-H可分別獨立地被-F或-Cl取代; Rv 和Rw 各自獨立地表示-CH2 -或-O-; LA11 、LA12 、LA11 、LA12 、LA14 、LA15 和LA16 各自獨立地表示-H或-F; LA13 和LA13 各自獨立地表示-H或-CH3 ; XA1 表示-F、-CF3 或-OCF3 ;並且 v和w各自獨立地表示0或1。
The liquid crystal composition as described in item 1 of the patent application range, wherein the compound of the general formula A-1 is selected from the group consisting of the following compounds:
Figure 03_image137
A-1-1;
Figure 03_image139
A-1-2;
Figure 03_image141
A-1-3;
Figure 03_image143
A-1-4;
Figure 03_image145
A-1-5;
Figure 03_image147
A-1-6;
Figure 03_image149
A-1-7;
Figure 03_image151
A-1-8;
Figure 03_image153
A-1-9;
Figure 03_image155
A-1-10;
Figure 03_image157
A-1-11;
Figure 03_image159
A-1-12;
Figure 03_image161
A-1-13;
Figure 03_image163
A-1-14;
Figure 03_image165
A-1-15;
Figure 03_image167
A-1-16;
Figure 03_image169
A-1-17; and
Figure 03_image171
A-1-18, where R A1 represents a linear or branched alkyl group containing 1-8 carbon atoms,
Figure 03_image013
,
Figure 03_image015
or
Figure 03_image017
, The linear or branched alkyl group containing 1-8 carbon atoms, 1 or non-adjacent 2 or more -CH 2 -can be independently -CH=CH-, -C≡C -, -O-, -CO-, -CO-O- or -O-CO-, and one or more -H present in these groups may be independently substituted by -F or -Cl, respectively; R v and R w each independently represent -CH 2 -or -O-; L A11 , L A12 , L A11 ' , L A12 ' , L A14 , L A15 and L A16 each independently represent -H or -F; L A13 and L A13 ' each independently represent -H or -CH 3 ; X A1 represents -F, -CF 3 or -OCF 3 ; and v and w each independently represent 0 or 1.
如申請專利範圍第1或10項所述之液晶組合物,其中,該通式A-1的化合物占該液晶組合物的重量百分比為0.1%-80%。The liquid crystal composition according to item 1 or 10 of the patent application range, wherein the compound of the general formula A-1 accounts for 0.1%-80% by weight of the liquid crystal composition. 如申請專利範圍第1項所述之液晶組合物,其中,該通式A-2的化合物選自由如下化合物組成的組:
Figure 03_image173
A-2-1;
Figure 03_image175
A-2-2;
Figure 03_image177
A-2-3;
Figure 03_image179
A-2-4;
Figure 03_image181
A-2-5;
Figure 03_image183
A-2-6;
Figure 03_image185
A-2-7;
Figure 03_image187
A-2-8;
Figure 03_image189
A-2-9;
Figure 03_image191
A-2-10;
Figure 03_image193
A-2-11;
Figure 03_image195
A-2-12;
Figure 03_image197
A-2-13;
Figure 03_image199
A-2-14;以及
Figure 03_image201
A-2-15, 其中, RA2 表示含有1-8個碳原子的直鏈或支鏈的烷基,該含有1-8個碳原子的直鏈或支鏈的烷基中的1個或不相鄰的2個以上的-CH2 -可分別獨立地被-CH=CH-、-C≡C-、-O-、-CO-、-CO-O-或-O-CO-替代,並且存在於這些基團中的一個或更多個-H可分別獨立地被-F或-Cl取代; LA21 、LA22 、LA23 、LA24 和LA25 各自獨立地表示-H或-F;並且 XA2 表示-F、-CF3 、-OCF3 或-CH2 CH2 CH=CF2
The liquid crystal composition according to item 1 of the patent application scope, wherein the compound of the general formula A-2 is selected from the group consisting of the following compounds:
Figure 03_image173
A-2-1;
Figure 03_image175
A-2-2;
Figure 03_image177
A-2-3;
Figure 03_image179
A-2-4;
Figure 03_image181
A-2-5;
Figure 03_image183
A-2-6;
Figure 03_image185
A-2-7;
Figure 03_image187
A-2-8;
Figure 03_image189
A-2-9;
Figure 03_image191
A-2-10;
Figure 03_image193
A-2-11;
Figure 03_image195
A-2-12;
Figure 03_image197
A-2-13;
Figure 03_image199
A-2-14; and
Figure 03_image201
A-2-15, wherein R A2 represents a linear or branched alkyl group containing 1-8 carbon atoms, one of the linear or branched alkyl groups containing 1-8 carbon atoms or Two or more non-adjacent -CH 2 -may be independently replaced by -CH=CH-, -C≡C-, -O-, -CO-, -CO-O-, or -O-CO-, And one or more -H present in these groups may be independently substituted by -F or -Cl; L A21 , L A22 , L A23 , L A24 and L A25 each independently represent -H or -F ; And X A2 represents -F, -CF 3 , -OCF 3 or -CH 2 CH 2 CH=CF 2 .
如申請專利範圍第1或12項所述之液晶組合物,其中,該通式A-2的化合物占該液晶組合物的重量百分比為0.1%-80%。The liquid crystal composition according to item 1 or 12 of the patent application scope, wherein the compound of the general formula A-2 accounts for 0.1%-80% by weight of the liquid crystal composition. 一種包含如申請專利範圍第1-13中任一項所述的液晶組合物的顯示器件。A display device comprising the liquid crystal composition according to any one of patent application ranges 1-13.
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