The prosperity of human society largely relies on safe energy supply, and fossil fuel has
been serving as the most reliable energy source. However, as a non-renewable energy …

Abstract Design of new materials for nanostructured dye solar cells (DSC) requires
understanding the link between the material properties and cell efficiency. This paper gives …

A numerical model of the dye sensitised solar cell (DSSC) is used to assess the importance
of different loss pathways under various operational conditions. Based on our current …

The steady-state photoelectrochemical responses of p-GaP photoelectrodes immersed in
aqueous electrolytes and sensitized separately by six triphenylmethane dyes (rose bengal …

Optimizing the physical and chemical properties of each material in the solar cell is an
efficient way to improve their performance. In the present work, we propose a double layer …

A numerical model that simulates the steady-state current–voltage curve and the time-
dependent response of a dye-sensitized solar cell with a single continuity equation is …

A theoretical model based on the numerical integration of the continuity equation for
electrons with trap-limited density-dependent diffusion and recombination constants is …

It is well known that recombination and transport rule the performance of dye sensitized
solar cells (DSC's); although, the influence that these two phenomena have in their …

A steady-state numerical model of dye-sensitized solar cell is based on continuity and
transport equations for electrons, iodide and triiodide ions. The cell model consists of an …

Dye-sensitized solar cells (DSSCs) based on ordered photoanode morphologies, such as
nanotubes and nanowires, are widely gaining attention because these geometries are …