Solution-processed interlayer of n-type small molecules for organic photovoltaic devices: Enhancement of the fill factor due to ordered orientation

Novel alcohol/water-soluble small molecules were obtained using various p- and n-type backbones. The synthesized molecules were dissolved in organic solvents and highly polar solvents. The DPPA film exhibited strong shoulder peak at approximately 633nm compared with the solution, which was due to th...

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Bibliographic Details
Published in:Solar energy materials and solar cells 2015-10, Vol.141, p.232-239
Main Authors: Song, Ho Jun, Lee, Eui Jin, Kim, Doo Hun, Moon, Doo Kyung, Lee, Sangkug
Format: Article
Language:English
Subjects:
Derivatives
Diffraction patterns
Energy conversion efficiency
Interlayer
OPVs
Orientation
Photovoltaic cells
Small molecule
Solar cells
Solvents
Voltage
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Summary:Novel alcohol/water-soluble small molecules were obtained using various p- and n-type backbones. The synthesized molecules were dissolved in organic solvents and highly polar solvents. The DPPA film exhibited strong shoulder peak at approximately 633nm compared with the solution, which was due to the ordered orientation of DPPA. According to XRD measurements, a prominent diffraction peak at 20.1° was observed in the in-plane diffraction pattern of DPPA, which indicates an out-of-plane peak (010) due to the molecular packing by π–π stacking. A photovoltaic device containing DPPA exhibited an open-circuit voltage of 0.75V, a current density of 15.1mA/cm2, a fill factor of 69.0% and a power conversion efficiency of 7.9%. The photovoltaic device containing the DPPA derivative exhibited an improved power conversion efficiency compared with those containing BPA and QA (6.6% and 7.6%, respectively) due to the ordered orientation and packing of DPPA. [Display omitted] •We synthesized alcohol/water-soluble small molecules.•The synthesized molecules showed good solubility and thermal stability.•DPPA showed strong π–π stacking interaction.•QA and DPPA exhibited a more strongly ordered orientation.•DPPA showed PCE of 7.9% with high FF (69.7%).
ISSN:0927-0248
1879-3398
DOI:10.1016/j.solmat.2015.04.042