Anti-reflection Film for LCD

Design of Silicon Nano-Bars Anti-Reflection Coating to Enhance Thin Film Solar Cells Efficiency

In this paper a novel anti-reflection (AR) coating based on silicon nano-bars is designed and its impact on the performance of crystalline silicon (c-Si) thin-film solar cells is extensively studied. Silicon nano-bars with optimized size and period are embedded on top of the active layer, under a 100nm Si3N4 layer. As a result of the proposed layer stack, an inhomogeneous intermediate layer wit...

Anti-Reflection Zinc Oxide Nanocones for Higher Efficiency Thin-Film Silicon Solar Cells

Bachelor of Science in Electrical Engineering and Computer Science and Bachelor of Science in Physics Massachusetts Institute of Technology (2011) Submitted to the Department of Electrical Engineering and Computer Science in Partial Fulfillment of the Requirements for the Degree of Master of Engineering in Electrical Engineering and Computer Science at the MASSACHUSETTS INSTITUTE OF TECHNOLOGY ...

Detection of Various Defects in TFT-LCD Polarizing Film

The increasing use of TFT-LCDs has generated a great deal of interest in manufacturing defects on TFT-LCD polarizing film because the poor quality of TFT-LCD polarizing film result in undesirable effects on the TFT-LCD display devices. In this paper, we propose a new inspection method that reliably detects various defects of TFT-LCD polarizing films. First, we apply a least mean squares adaptiv...

A Fast-Response A-Film-Enhanced Fringe Field Switching LCD

We proposed a new A-film-enhanced fringe field switching (AFFS) LCD whose required dn value is only 50% of the conventional FFS. Fast response time can be achieved by decreasing the cell gap, while keeping transmittance over 90%. The parameters which may degrade the contrast ratio are addressed.

Design of film—substrate single-reflection retarders