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Effects of metal-free conjugated oligomer as a surface modifier in hybrid polymer/ZnO solar cells
Journal
Solar Energy Materials and Solar Cells
Journal Volume
107
Pages
69-74
Date Issued
2012
Author(s)
Abstract
The interface property has been one of the critical issues in developing hybrid polymer/metal oxide solar cells. We synthesize a conjugated oligomer, an amine- and bromine-terminated 3-hexyl thiophene (O3HT-(Br)NH 2), to modify the ZnO-nanorod (ZnO-NR) surface in hybrid polymer/ZnO-NR photovoltaic cells. This oligomer is of the same repeat unit structure as and ∼1/12 the contour length of that of the light-harvesting polymer. In addition to passivate the NR surface, the presence of this conjugated oligomer enhances the electron mobility, and drives larger hole density toward the anodic surface for collection. The improved charge transport property of the hybrid is presumably a result of modulating the nanomorphology of the bi-carrier transport network induced by the conjugated oligomer. As a result, there is a large enhancement in photocurrent and photovoltage leading to an improved device performance of ∼35. © 2012 Elsevier B.V. All rights reserved.
Subjects
Hybrid solar cell; Interface; Oligomer; Surface modification; Transport; ZnO
SDGs
Other Subjects
Conjugated oligomer; Contour lengths; Critical issues; Device performance; Hole densities; Hybrid polymers; Hybrid solar cells; Interface property; Light-harvesting polymers; Nanomorphologies; Photo-voltage; Repeat unit structures; Surface modifiers; Transport; Transport networks; ZnO; Bromine; Electron mobility; Interfaces (materials); Nanorods; Photovoltaic cells; Polymers; Solar cells; Surface treatment; Zinc oxide; Oligomers
Type
journal article