In this work, ultrathin silicon solar cell design employed with the aid of periodic silver (Ag)
nanoparticles substituted on an aluminium (Al) grating to improve the optical performance by …

This paper presents a concept to significantly improve the photocurrent of ultrathin
crystalline silicon solar cells using plasmonic hemispherical dielectric-metal (core-shell) …

The main aim of this research work is to significantly improve the photocurrent of an ultra-
thin silicon solar cell. Here, cylindrical shape cascaded plasmonic nanoparticles are used to …

Solar cell structures are the semiconductor devices in which silicon is the prominent element
due to it abundant in nature. There are many avenues to improve optical absorption of …

Enhancement of the optical absorption in ultra-thin silicon solar cells is more important. In
this work, plasmonic nanostructures are used inside the active layer to improve the …

This study reports the generation of surface plasmon polariton (SPPs) by varied geometrical
effects of gold (Au) and silver (Ag) plasmonic grating to realize efficiency enhancement of …

The demand for cheaper and more efficient solar cells is the main reason behind the
ongoing research on ultra-thin solar cells. In this research work, the electric field generated …

Hybrid silicon solar cells are an implementation of solar cells which have a simple
fabrication process meanwhile absorbing a wider range of light spectrums compared to …

In this paper, we investigate the photonic and plasmonic modes in order to enhance the
absorption of ultrathin film Si Solar Cells. The simulations based on FEM show that these …

In this work, in order to enhance the light absorption in one micron thick crystalline silicon
solar cells, a back reflecting and rear located plasmonic nanodisk scheme is proposed. We …