Journal ArticleOpen Access
Effect of back reflectors on photon absorption in thin-film amorphous silicon solar cells
Author Affiliations
American International University-Bangladesh, Hong Kong Polytechnic University, Bangladesh Atomic Energy Commission, Kwangwoon University
Published InApplied Nanoscience
Year2017
Citations69
Abstract
In thin-film solar cells, the photocurrent conversion productivity can be distinctly boosted-up utilizing a proper back reflector. Herein, the impact of different smooth and textured back reflectors was explored and effectuated to study the optical phenomena with interface engineering strategies and characteristics of transparent contacts. A unique type of wet-chemically textured glass-substrate 3D etching mask used in superstrate (p–i–n) amorphous silicon-based solar cell along with legitimated back reflector permits joining the standard light-trapping methodologies, which are utilized to upgrade the energy conversion efficiency (ECE). To investigate the optical and electrical properties of solar cell structure, the optical simulations in three-dimensional measurements (3D) were performed utilizing finite-difference time-domain (FDTD) technique. This design methodology allows to determine the power losses, quantum efficiencies,…
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