Planar Alignment of Columnar Discotic Liquid Crystals by Isotropic Phase Dewetting on Chemically Patterned Surfaces

Jonathan P. Bramble; Daniel J. Tate; Derek J. Revill; Khizar H. Sheikh; James R. Henderson; Feng Liu; Xiangbing Zeng; Goran Ungar; Richard J. Bushby; Stephen D. Evans

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Planar Alignment of Columnar Discotic Liquid Crystals by Isotropic Phase Dewetting on Chemically Patterned Surfaces

机译：各向同性相去湿在化学构图表面上对柱状盘状液晶的平面排列

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A novel method of creating planar aligned columnar discotic liquid crystals (cDLCs) on surfaces, which also gives control over the azimuthal angle, is presented. Surfaces are chemically patterned with stripes via microcontact printing of organothiol self-assembled monolayers (SAMs) on gold, or via deep UV patterning of organosilane SAMs on silicon. These are then used to isolate long droplets of cDLCs by dewetting in the isotropic phase. Upon cooling from the isotropic into the hexagonal columnar phase, polarizing microscopy reveals that the cDLC aligns in a planar orientation. Results for three triphenylene derivatives (HAT-6, HHTT, H7T) and for a phthalocyanine derivative (8H_2Pc) are presented. H7T and HAT-6 are found to align with the director perpendicular to the stripe direction, but HHTT and 8H_2Pc align parallel to the stripe direction. This relatively simple new method for creating planar aligned columnar phases of DLCs gives control over the azimuthal angle: a condition required for organic field-effect transistor applications of cDLCs.

机译：提出了一种在表面上形成平面排列的柱状盘状液晶（cDLC）的新颖方法，该方法还可以控制方位角。通过在金上进行有机硫醇自组装单分子层（SAM）的微接触印刷，或通过在硅上对有机硅烷SAM进行深紫外图案化，可以在表面上用条纹对表面进行化学构图。然后，通过在各向同性相中进行去湿将它们用于分离长的cDLC液滴。从各向同性冷却到六方柱状相后，偏振显微镜显示cDLC沿平面方向排列。给出了三种三亚苯基衍生物（HAT-6，HHTT，H7T）和酞菁衍生物（8H_2Pc）的结果。发现H7T和HAT-6与指向矢垂直于条纹方向对齐，但HHTT和8H_2Pc平行于条纹方向对齐。这种用于创建DLC的平面排列的柱状相的相对简单的新方法可以控制方位角：这是cDLC的有机场效应晶体管应用所需的条件。

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《Advanced Functional Materials》 |2010年第6期|p.914-920|共7页
作者
Jonathan P. Bramble; Daniel J. Tate; Derek J. Revill; Khizar H. Sheikh; James R. Henderson; Feng Liu; Xiangbing Zeng; Goran Ungar; Richard J. Bushby; Stephen D. Evans;
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Molecular and Nanoscale Physics, School of Physics and Astronomy University of Leeds Leeds, LS2 9JT (UK);

rnCentre for Molecular Nanoscience (CMNS), School of Chemistry University of Leeds Leeds, LS2 9JT (UK);

rnMolecular and Nanoscale Physics, School of Physics and Astronomy University of Leeds Leeds, LS2 9JT (UK);

rnMolecular and Nanoscale Physics, School of Physics and Astronomy University of Leeds Leeds, LS2 9JT (UK);

rnMolecular and Nanoscale Physics, School of Physics and Astronomy University of Leeds Leeds, LS2 9JT (UK);

rnDepartment of Engineering Materials University of Sheffield Mappin Street, Sheffield S1 3JD (UK);

rnDepartment of Engineering Materials University of Sheffield Mappin Street, Sheffield S1 3JD (UK);

rnDepartment of Engineering Materials University of Sheffield Mappin Street, Sheffield S1 3JD (UK) WCU Chemical Convergence for Energy and Environment, Bldg. 302 Seoul National University Seoul 151-744 (Korea);

rnCentre for Molecular Nanoscience (CMNS), School of Chemistry University of Leeds Leeds, LS2 9JT (UK);

rnMolecular and Nanoscale Physics, School of Physics and Astronomy University of Leeds Leeds, LS2 9JT (UK);

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1. Homeotropic and Planar Alignment of Discotic Liquid Crystals: The Role of the Columnar Mesophase [J] . Guillaume Schweicher, Gabin Gbabode, Florence Quist Chemistry of Materials: A Publication of the American Chemistry Society . 2009,第24期

机译：盘状液晶的垂直和平面排列：柱状中间相的作用
2. Atomistic simulation of discotic liquid crystals:Transition from isotropic to columnar phase example [J] . Pier Luigi Cristinziano, Francesco Lelj The Journal of Chemical Physics . 2007,第13期

机译：盘状液晶的原子模拟：从各向同性向柱状相转变的例子
3. Muoniated spin probes in the discotic liquid crystal HHTT: Rapid electron spin relaxation in the hexagonal columnar and isotropic phases [J] . Iain McKenzie, Andrew N. Cammidge, Hemant Gopee, PHYSICAL REVIEW E . 2013,第1期

机译：盘状液晶HHTT中的自旋探针：六方柱状和各向同性相中的快速电子自旋弛豫
4. Thickness Dependence of forming Single Crystal by Liquid-Crystalline Blue Phase on Chemically Patterned Surface [C] . Xiao Li, Jose A. Martinez-Gonzalez, Juan J. de Pablo, SPIE OPTO Conference . 2018

机译：在化学图案化的表面上由液晶蓝相形成单晶的厚度依赖性
5. From crystal to columnar discotic liquid crystal phases: Phase structural characterization of series of novel phenazines potentially useful in organic electronics. [D] . Leng, Siwei. 2009

机译：从晶体到柱状盘状液晶相：一系列潜在用于有机电子领域的新型吩嗪的相结构表征。
6. Liquid crystalline ordering of nucleosome core particles under macromolecular crowding conditions: evidence for a discotic columnar hexagonal phase. [O] . A Leforestier, F Livolant 1997

机译：大分子拥挤条件下核小体核心颗粒的液晶排序：盘状柱状六角相的证据。
7. Muoniated spin probes in the discotic liquid crystal HHTT: Rapid electron spin relaxation in the hexagonal columnar and isotropic phases [O] . Iain McKenzie, Andrew N. Cammidge, Hemant Gopee, 2013

机译：在盘状液晶HHTT中的突出的旋转探针：六边形柱状和各向同性相的快速电子旋转松弛

Planar Alignment of Columnar Discotic Liquid Crystals by Isotropic Phase Dewetting on Chemically Patterned Surfaces

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