Intermediate pre-tilt angle control by a composite alignment thin film structure for liquid crystal displays

We designed a patterned composite alignment thin film structure using a horizontal alignment polyimide (PI) layer and vertical alignment liquid crystal polymer (LCP) pillars. The LCP polymer precursor concentration was varied at 0-10% and the pillars were introduced by a photolithography process. Both single-sided and double-sided liquid crystal display cells were assembled for a series of electro-optical characterization techniques. The horizontal PI alignment layer alone had a designated control of the pre-tilt angle of 7° after the prescribed mechanical rubbing process. The pre-tilt angle was improved to 24° when the LCP precursor concentration was 5%. It was further increased to 61° at the concentration of 10%. In addition, the study on the electrical response time and gray level variation demonstrated promising results for potential applications. The field-on response time was only 2.79ms and the field-off response time was 0.35ms for the double-sided liquid crystal display cells using a ramping voltage of 5.5V. The effective control of the cell pre-tilt angle suggested that the display power consumption and response time would be greatly improved.