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Liquid Crystals Volume 46, 2019 - Issue 12
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Article

Physicochemical analysis of ion beam-induced surface modifications on polyethylene glycol films for liquid crystal alignment

Ju Hwan LeeIT Nano Electronic Device Laboratory, Department of Electrical and Electronic Engineering, Yonsei University, Seoul, Republic of KoreaView further author information
,
Jonghoon WonIT Nano Electronic Device Laboratory, Department of Electrical and Electronic Engineering, Yonsei University, Seoul, Republic of KoreaView further author information
,
Hae-Chang JeongIT Nano Electronic Device Laboratory, Department of Electrical and Electronic Engineering, Yonsei University, Seoul, Republic of KoreaView further author information
,
Dong Hyun KimIT Nano Electronic Device Laboratory, Department of Electrical and Electronic Engineering, Yonsei University, Seoul, Republic of KoreaView further author information
,
Dong Wook LeeIT Nano Electronic Device Laboratory, Department of Electrical and Electronic Engineering, Yonsei University, Seoul, Republic of KoreaView further author information
,
Jeong-Min HanDepartment of Electricity, Seoil University, Seoul, Republic of KoreaView further author information
,
Byeong-Yun OhBMC Co., Ltd., Gwangju, Republic of KoreaView further author information
&
Dae-Shik SeoIT Nano Electronic Device Laboratory, Department of Electrical and Electronic Engineering, Yonsei University, Seoul, Republic of KoreaCorrespondence[email protected]
View further author information
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Pages 1799-1807 | Received 22 Nov 2018, Accepted 08 Apr 2019, Published online: 24 Apr 2019
 
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ABSTRACT

We investigated the surface modification induced by the ion-beam (IB) irradiation of a polyethylene glycol (PEG) film and its liquid crystal (LC) alignment characteristics. The X-ray photoelectron spectroscopy analysis revealed the chemical modification; as the IB incidence angle increased, the number of surface C–O bonds decreased, inducing an anisotropic dipole moment on the PEG film surface. In addition, the physical modification was demonstrated via atomic force microscopy analysis using three-dimensional images as a function of the IB incidence angle. The surface roughness was analyzed; the modification with the smoothest surface was observed for an IB incidence angle of 45°. This modification affected the LC alignment state of the PEG film, as demonstrated by the polarized optical microscopy analysis with pre-tilt angle measurements. Furthermore, for the same IB incidence angle, the residual DC measured using the capacitance–voltage curves was extremely low. Hence, a PEG film irradiated with an IB incidence angle of 45° could be a suitable LC alignment layer.

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Disclosure statement

No potential conflict of interest was reported by the authors.

Additional information

Funding

This research was supported by the National Research Foundation of Korea (Grant No. 2018-11-0902).

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