Controlled growth of nanofiber network hole collection layers with pore structure for polymer-fullerene solar cells
Journal
Journal of Physical Chemistry C
Journal Volume
112
Journal Issue
48
Pages
19125-19130
Date Issued
2008
Author(s)
Abstract
In this study, we compare a series of hole collector layers (HCLs) with pore structure fabricated via an electrochemical method to construct polymer-fullerene solar cells. The HCLs with a pore structure can offer a large interface to enhance hole collection; however, the series resistances are also increased by the relatively pore morphology. Photovoltaic device with the largest short circuit current (Jsc) and efficiency is achieved using poly(3,4-prppylenedioxythiophene) (PProDoT) as HCLs due to its highly porous structure and reasonable series resistance. By further optimizing the thickness of the HCLs in the solar cell, a power efficiency of 3.57% under simulated sun light is achieved. © 2008 American Chemical Society.
SDGs
Other Subjects
Fullerenes; Photovoltaic cells; Pore structure; Solar cells; Solar equipment; Controlled growths; ELectrochemical methods; Hole collectors; Photovoltaic devices; Pore morphologies; Porous structures; Power efficiencies; Series resistances; Sun lights; Solar energy
Type
journal article