A solar cell is an electronic device which not only harvests photovoltaic effect but also transforms light energy into electricity. In photovoltaic phenomenon, a P-N junction is created to form an empty region.  The presented paper aims at proposing a new highly efficient InGaN/Si double-junction solar cell structure. This cell is designed to be used in a real environmental situation, so only s...

Numerical modeling of polycrystalline thin-film solar cell serves as an imperative procedure to test the suitability of proposed physical clarification and to anticipate the effect of physical changes on cell performance. All in all, this must be conducted with only partial knowledge of input parameters. In this paper, we evaluated the numerical simulation of CdS/CIGS tandem multi junction sola...

Multi-junction solar cells play a crucial role in the ConcentratedPhotovoltaic (CPV) Systems. Recent developments in CPV concerning high powerproduction and cost effective-ness along with better efficiency are due to theadvancements in multi-junction cells. This paper presents a simulation model of thegeneralized Multi-junction solar cell and introduces a two-bond solar ...

Here we propose, for the first time, a solar cell characterized by a semiconductor transistor structure (n/p/n or p/n/p) where the base-emitter junction is made of a high-bandgap semiconductor and the collector is made of a low-bandgap semiconductor. We calculate its detailed-balance efficiency limit and prove that it is the same one than that of a double-junction solar cell. The practical impo...

A two-dimensional conjugated small molecule (SMPV1) was designed and synthesized for high performance solution-processed organic solar cells. This study explores the photovoltaic properties of this molecule as a donor, with a fullerene derivative as an acceptor, using solution processing in single junction and double junction tandem solar cells. The single junction solar cells based on SMPV1 ex...

Organic–inorganic metal halide perovskite solar cells represent the fastest advancing cell technology in terms of energy conversion efficiency improvement, as seen last decade. This has become a promising for next-generation, low-cost, high-efficiency photovoltaics including multi-junction tandem concepts. Double-junction have much higher limits 45%, beyond Shockley–Queisser single-junction cel...

Quantum wells enable solar cell bandgaps to be tailored to the theoretical optimum, under the assumption of unity absorption. In practice however, quantum well regions are thinner and hence absorb less strongly than bulk material. We predict detailed balance efficiency limits for varying levels of absorptivity in singleand double-junction quantum-well solar cells. These calculations allow us to...

Photovoltaic-electrolysis water splitting (PV-EWS) is the most promising approach for high solar-to-hydrogen (STH) efficiency. The present PV-EWS systems achieve highest STH performance by using a III-V triple-junction configuration, which, however, involves complex and expensive manufacture process. Therefore, in this work, we demonstrate III–V double junction device that can be used as an alt...