Thin-film dye-sensitized solar cells (DSCs) based on mesoporous semiconductor electrodes are low-cost alternatives to conventional silicon devices. High-efficiency DSCs typically operate as photoanodes (n-DSCs), where photocurrents result from dye-sensitized electron injection into n-type semiconductors. Dye-sensitized photocathodes (p-DSCs) operate in an inverse mode, where dye-excitation is f...

Articles you may be interested in Short circuit current improvement in planar heterojunction organic solar cells by multijunction charge transfer Appl.

Tandem structures can boost the efficiency of organic solar cell to more than 15%, compared to the 10% limit of single layer bulk heterojunction devices. Design and fabricating of intermediate layers plays a very important role to achieve high device performance. This article will review the main experimental progresses of tandem organic solar cells, and focus on the intermediate layers (charge...

Device modeling and simulation of a mechanically stacked CuGaSe2/Cu(In1-x,Gax)Se2 (CGS/CIGS) tandem solar cell have been carried out in this study. The physical model consists of a CIGS bottom cell with a double graded band-gap profile in the space charge region (SCR) and the backside of the absorber layer and a uniform band-gap CGS top cell. By varying the absorber layer thickness of the CGS t...

Low bandgap lead-tin halide perovskites are predicted to be candidates maximize the performance of single junction and tandem solar cells based on metal perovskites. In spite tremendous progress in lab-scale device efficiency, devices fabricated with scalable techniques fail reach same efficiencies, which hinder their potential industrialization. Herein, a method is proposed that involves templ...