Abstract
Alignment layer plays a critical role on liquid crystal (LC) conformation for most LC devices. Normally, polyimide (PI) or polyvinyl alcohol (PVA), characterized by their outstanding thermal and electrical properties, have been widely applied as the alignment layer to align LC molecules. Here, we used a semi-conductive material poly(N-vinylcarbazole) (PVK) as the alignment layer to fabricate the cholesteric liquid crystal (CLC) device and the polymer-stabilized cholesteric liquid crystals (PSCLC)-based infrared (IR) reflectors. In the presence of ultraviolet (UV) irradiation, there are hole–electron pairs generated in the PVK layer, which neutralizes the impurity electrons in the LC–PVK junction, resulting in the reduction in the built-in electric field in the LC device. Therefore, the operational voltage of the CLC device switching from cholesteric texture to focal conic texture decreases from 45 V to 30 V. For the PSCLC-based IR reflectors with the PVK alignment layer, at the same applied electric field, the reflection bandwidth is enhanced from 647 to 821 nm, ranging from 685 to 1506 nm in the IR region, which makes it attractive for saving energy as a smart window.
Highlights
Cell filling was fulfilled by capillary action between the fluidic liquid crystal (LC) and micro-scale
Nematic liquid crystal (5CB) was filled into the cells constructed with three different alignment layer combinations, polyvinyl alcohol (PVA)–PVA, PVA–PVK and PVK–PVK
Its semi-conductive property, there are hole–electron pairs generated in the PVK layer in device in which was used as the alignment layer
Summary
Smart windows that enable electronic control of visible and infrared light have attracted extensive attention in both academia and industry due to their potential application for architectural aesthetics, occupant comfort and energy efficiency [1,2]. Energy savings of 20% can be made through smart windows due to reduced lighting, heating and cooling costs [2]. Various technologies are known to fabricate such windows including electrochromic (EC) [3,4,5], suspended particle electrophoresis [6,7], polymer dispersed liquid crystals (PDLC) [8,9,10], polymer stabilized liquid crystals (PSLC) [11,12,13,14,15,16]
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