Issue 9, 2024

Impact of crosslinking agents with steric cyclic groups on the properties of polymer-dispersed liquid crystals

Abstract

As a type of intelligent dimming film, polymer-dispersed liquid crystals (PDLCs) have been widely applied in various fields, such as smart windows, light shutters and displays. The properties of PDLCs are greatly influenced by the structure of the raw materials. In this work, the impact of crosslinking agents with different cyclic or chain groups was investigated by comparing the electro-optical performance and the morphology of the polymer matrix in the as-made PDLC films. It was found that the incorporation of large steric groups into the crosslinking agents can alter the morphology of the polymer matrix and thus affect the electro-optical properties. However, the impact is distinct when the spatial structure or rigidity is different. Besides, a combination of crosslinking agents with flexible alkyl-chain structures and steric structures can further reduce the threshold voltage while keeping the high contrast ratio. After detailed comparison, an optimized combination of BDDA/TCDDA in a weight ratio of 1/1 is selected to demonstrate the enhanced properties of the as-constructed film with a thickness of 20 μm. It exhibits low threshold voltage (8.2 V), low saturation voltage (21.2 V) and a high contrast ratio (203) simultaneously. This research offers an optimizing method from the crosslinking agent perspective and is anticipated to promote the further improvement of the PDLC's performance.

Graphical abstract: Impact of crosslinking agents with steric cyclic groups on the properties of polymer-dispersed liquid crystals

Article information

Article type
Paper
Submitted
22 Nov 2023
Accepted
26 Jan 2024
First published
05 Feb 2024

Phys. Chem. Chem. Phys., 2024,26, 7388-7397

Impact of crosslinking agents with steric cyclic groups on the properties of polymer-dispersed liquid crystals

M. Yu, X. He, J. Qin, Y. Hu, Q. Wang, C. Zou, H. Wei, X. Wang, Y. Gao and H. Yang, Phys. Chem. Chem. Phys., 2024, 26, 7388 DOI: 10.1039/D3CP05683J

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