Alignment control of liquid crystal molecules using crack induced self-assembled grooves | Zendy

TzuChieh Lin | Zendy; YingZu Huang | Zendy; Tsu-Ruey Chou | Zendy; Chih-Yu Chao | Zendy

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Alignment control of liquid crystal molecules using crack induced self-assembled grooves

Author(s) -

TzuChieh Lin,

YingZu Huang,

Tsu-Ruey Chou,

Chih-Yu Chao

Publication year - 2009

Publication title -

soft matter

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.99

H-Index - 170

eISSN - 1744-6848

pISSN - 1744-683X

DOI - 10.1039/b911567f

Subject(s) - rubbing , polyimide , liquid crystal , materials science , polymer , molecule , optoelectronics , crystal (programming language) , liquid crystal display , nanotechnology , composite material , layer (electronics) , chemistry , organic chemistry , computer science , programming language

Molecule alignment has many significant applications in biotechnology, molecular electronics, optoelectronic devices and liquid crystal (LC) display manufacturing. In this paper, we employ a fast and high-throughput method, fabricating micro- and nano-grooves for the alignment of liquid crystal (LC) molecules. Splitting the polymer film sandwiched by two substrates triggers the propagating wave front to induce self-assembled grooves on the polymer surfaces. This crack-induced grooving (CIG) method not only avoids the high-temperature process, dust and ion contaminations caused by traditional rubbing, but also provides a large anchoring energy comparable to that using polyimide rubbing. This CIG method offers an appealing alternative to existing technologies for LC molecules alignment.

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