Multi-junction solar cells exhibit superior power conversion efficiency (PCE) in comparison
with their single-junction counterparts. The tunable bandgap, low-cost, elevated short circuit …

Abstract Antimony sulfide (Sb 2 S 3) and thin crystalline silicon (c-Si) are considered suitable
top-and bottom-cell candidates for tandem solar cells (TSCs), owing to their natural …

This paper presents a novel endeavor to use the Heap optimization algorithm (HOA) to solve
the problem of optimal power flow (OPF) in the electricity networks. The key objective is to …

Two-terminalt and tandem solar-cells have a high efficiency of power conversion. One of
their main limitations is the operating current density as the two-terminal tandem solar-cell is …

The current study introduces a two-terminal (2T) thin-film tandem solar cell (TSC) comprised
of a polymer-based top sub cell and a thin crystalline silicon (c-Si) bottom sub cell. The …

The primary purpose of recent research on solar cells is to achieve a higher power
conversion efficiency with stable characteristics. To push the developments of photovoltaic …

Tandem solar cells have a superb potential to push the power conversion efficiency (PCE) of
photovoltaic technologies. They can be also more stable and economical. In this simulation …

The primary purpose of recent research has been to achieve a higher power conversion
efficiency (PCE) with stable characteristics, either through experimental studies or through …

This work presents the design of a monolithic thin-film tandem solar cell (TSC), that
comprises of a front perovskite (PVK) sub-cell along with a rear thin Si sub-cell. The study …

In order to surmount the Shockley–Queisser efficiency barrier of single-junction solar
devices, tandem solar cells (TSCs) have shown a potential solution. Organic and Si …