Abstract
The planar-alignment agent in an electro-optic liquid crystal (LC) device plays an essential role for the LC's electro-optical characteristics. Rubbed polyimide (PI) layers are conventionally used as the planar-alignment agent in traditional liquid crystal displays (LCDs). Here we experimentally demonstrate that the 2D hexagonal boron nitride (h-BN) nanosheet can serve as the planar-alignment agent in an LC cell. This h-BN has higher chemical stability and more optical transparency than the PI layer. Two h-BN-covered indium tin oxide (ITO) glass slides (without any conventional PI layers) are placed together to fabricate an LC cell. A nematic LC inside this h-BN-based cell exhibits uniform planar-alignment-which is probed by a crossed polarized optical microscope. This planar-alignment at the molecular scale is achieved due to the coherent overlay of the benzene rings of the LC molecules on the hexagonal BN lattice. This h-BN-based LC cell shows the typical electro-optical effect when an electric field is applied via ITO electrodes. The dielectric measurement across this h-BN-based electro-optic cell shows a standard Fréedericksz transition of the LC, confirming that the 2D h-BN, as the planar-alignment agent, supplies adequate anchoring energy-which can be overcome by the Fréedericksz threshold voltage. Finally, we show that the h-BN-based LC cell exhibits more optical transparency than a regular PI alignment layer-based LC cell.
Highlights
Liquid crystals (LCs) are optically anisotropic materials, and they are widely used in electrooptical display technology
We show that the hexagonal boron nitride (h-BN)/indium tin oxide (ITO) LC cell exhibits the typical electro-optical effect—which is essential for the liquid crystal displays (LCDs) technology
The higher threshold voltage in the h-BN/ITO cell indicates that the planar anchoring energy between LC—h-BN is stronger than that in LC—PI
Summary
Liquid crystals (LCs) are optically anisotropic materials, and they are widely used in electrooptical display technology. 2(a) and 2(b) present the LC texture in the ITO-only LC cell under the crossed polarized optical microscope.
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