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    • 1. 发明授权
    • Volume photo-aligned retarder
    • 体积光对准延迟器
    • US08054411B2
    • 2011-11-08
    • US12440123
    • 2007-09-07
    • Thomas BachelsCarsten BeneckeHubert Seiberle
    • Thomas BachelsCarsten BeneckeHubert Seiberle
    • G02F1/1347
    • G02F1/133636G02B5/3016G02F2413/09
    • This invention relates to a birefringent layer, wherein the direction of the optical axis varies along the thickness direction of the layer, comprisingI) (i) a liquid crystal monomer or pre-polymer having polymerisable groups; and (ii) a monomer or oligomer or polymer having photo-orientable groups, and/or (iii) a liquid crystal monomer or pre-polymer, oligomer or polymer having photo-orientable and polymerisable groups, and (iv) and optionally further components, or II) (v) a liquid crystal monomer or pre-polymer, oligomer or polymer having photo-orientable and polymerisable groups, and (vi) and optionally further components, in addition, this invention relates to a method for the preparation of the birefringent layer, its uses and optical components thereof.
    • 本发明涉及双折射层,其中光轴的方向沿层的厚度方向变化,包括I)(i)具有可聚合基团的液晶单体或预聚物; 和(ii)具有光取代基团的单体或低聚物或聚合物,和/或(iii)具有光取向和可聚合基团的液晶单体或预聚物,低聚物或聚合物,和(iv)和任选的其它组分 或II)(v)具有光取向和可聚合基团的液晶单体或预聚物,低聚物或聚合物,以及(vi)和任选的另外的组分,另外本发明涉及一种制备 双折射层,其用途和光学部件。
    • 2. 发明申请
    • VOLUME PHOTO-ALIGNED RETARDER
    • VOLUME PHOTO对齐的延迟器
    • US20100026935A1
    • 2010-02-04
    • US12440123
    • 2007-09-07
    • Thomas BachelsCarsten BeneckeHubert Seiberle
    • Thomas BachelsCarsten BeneckeHubert Seiberle
    • G02F1/1347C09K19/38C08F2/48G02F1/13
    • G02F1/133636G02B5/3016G02F2413/09
    • This invention relates to a birefringent layer, wherein the direction of the optical axis varies along the thickness direction of the layer, comprising I) (i) a liquid crystal monomer or pre-polymer having polymerisable groups; and (ii) a monomer or oligomer or polymer having photo-orientable groups, and/or (iii) a liquid crystal monomer or pre-polymer, oligomer or polymer having photo-orientable and polymerisable groups, and (iv) and optionally further components, or II) (v) a liquid crystal monomer or pre-polymer, oligomer or polymer having photo-orientable and polymerisable groups, and (vi) and optionally further components, in addition, this invention relates to a method for the preparation of the birefringent layer, its uses and optical components thereof.
    • 本发明涉及双折射层,其中光轴的方向沿层的厚度方向变化,包括I)(i)具有可聚合基团的液晶单体或预聚物; 和(ii)具有光取代基团的单体或低聚物或聚合物,和/或(iii)具有光取向和可聚合基团的液晶单体或预聚物,低聚物或聚合物,和(iv)和任选的其它组分 或II)(v)具有光取向和可聚合基团的液晶单体或预聚物,低聚物或聚合物,以及(vi)和任选的另外的组分,另外本发明涉及一种制备 双折射层,其用途和光学部件。
    • 7. 发明申请
    • PATTERNABLE LIQUID CRYSTAL POLYMER COMPRISING THIO-ETHER UNITS
    • 包含THIO-ETHER单位的方形液晶聚合物
    • US20100059709A1
    • 2010-03-11
    • US12515918
    • 2007-12-11
    • Thomas BachelsIzabela BuryGuy MarckHubert SeiberlePeggy StuderStefano Tugulu
    • Thomas BachelsIzabela BuryGuy MarckHubert SeiberlePeggy StuderStefano Tugulu
    • C08G75/02C09K19/38
    • C09K19/3804C09K19/38C09K19/54C09K2019/0448C09K2219/03
    • The present invention relates to a photo-polymerized, patterned or unpatterned liquid crystal polymer, especially a liquid crystal polymer film or a liquid crystal polymer network, comprising thio-ether units of formula (I) * covalent bond, which links the unit of formula (I) to the residue of the polymer wherein LC1 is selected from the group of liquid crystal residues, X1 is selected from the group of aliphatic organic residues, and n1 is an integer ≧0 and m1 is an integer ≧0; with the proviso that if n1 is 0, then m1 is >0, and if m1 is 0, then n1>0; which is prepared in an atmosphere containing oxygen, preferably with an amount of 0.1≦oxygen 50%, more preferably 1≦oxygen≦25%, most preferably in air; with the proviso that polymer dispersed liquid crystals are excluded. Further, this invention relates to a composition used for the preparation of that photo-polymerized liquid crystal polymer of the invention, to processes of the preparation of that liquid crystal polymer and to its use.
    • 本发明涉及光聚合,图案化或未图案化的液晶聚合物,特别是液晶聚合物膜或液晶聚合物网络,其包含式(I)*共价键的硫醚单元,其将式 (I)所示的聚合物残基,其中LC1选自液晶残基,X1选自脂族有机残基,n1为整数≥0,m1为整数≥0; 条件是如果n1为0,则m1> 0,如果m1为0,则n1> 0; 其在含有氧气的气氛中制备,优选为0.1< NlE;氧气50%,更优选1& NlE;氧气& 25%,最优选在空气中; 条件是排除聚合物分散的液晶。 此外,本发明涉及用于制备本发明的光聚合液晶聚合物的组合物,该液晶聚合物的制备方法及其用途。
    • 9. 发明授权
    • Patternable liquid crystal polymer comprising thio-ether units
    • 包含硫醚单元的可成形液晶聚合物
    • US08574454B2
    • 2013-11-05
    • US12515918
    • 2007-12-11
    • Thomas BachelsIzabela BuryGuy MarckHubert SeiberlePeggy StuderStefano Tugulu
    • Thomas BachelsIzabela BuryGuy MarckHubert SeiberlePeggy StuderStefano Tugulu
    • C09K19/52C09K19/06C09K19/00G02F1/1333C08G75/04
    • C09K19/3804C09K19/38C09K19/54C09K2019/0448C09K2219/03
    • The present invention relates to a photo-polymerized, patterned or unpatterned liquid crystal polymer, especially a liquid crystal polymer film or a liquid crystal polymer network, comprising thio-ether units of formula (I) * covalent bond, which links the unit of formula (I) to the residue of the polymer wherein LC1 is selected from the group of liquid crystal residues, X1 is selected from the group of aliphatic organic residues, and n1 is an integer ≧0 and m1 is an integer ≧0; with the proviso that if n1 is 0, then m1 is >0, and if m1 is 0, then n1>0; which is prepared in an atmosphere containing oxygen, preferably with an amount of 0.1≦oxygen≦50%, more preferably 1≦oxygen≦25%, most preferably in air; with the proviso that polymer dispersed liquid crystals are excluded. Further, this invention relates to a composition used for the preparation of that photo-polymerized liquid crystal polymer of the invention, to processes of the preparation of that liquid crystal polymer and to its use.
    • 本发明涉及光聚合,图案化或未图案化的液晶聚合物,特别是液晶聚合物膜或液晶聚合物网络,其包含式(I)*共价键的硫醚单元,其将式 (I)所示的聚合物的残基,其中LC1选自液晶残基,X1选自脂族有机残基,n1为整数> = 0,m1为整数> = 0; 条件是如果n1为0,则m1> 0,如果m1为0,则n1> 0; 其在含有氧气的气氛中制备,优选以25%的0.1%氧气,更优选25%的氧气,最优选在空气中制备; 条件是排除聚合物分散的液晶。 此外,本发明涉及用于制备本发明的光聚合液晶聚合物的组合物,该液晶聚合物的制备方法及其用途。