Spectroscopic and Microscopic Analysis of Degradation Pathways in PTQ10:IDIC Solar Cells
Saqib Rafique, Shahino Mah Abdullah, James McGettrick, Lijie Li

TL;DR
This study investigates how PTQ10:IDIC solar cells degrade over time, finding that surface chemistry changes more than bulk properties.
Contribution
The study provides new insights into how ambient aging affects the surface composition and work function of organic solar cells.
Findings
Ambient aging causes a 19% drop in power conversion efficiency, mainly due to reduced short-circuit current density.
Surface smoothing and compositional changes are observed, with fluorine increasing and oxygen decreasing.
Surface work function decreases by 0.48 eV, indicating electronic reorganization near the surface.
Abstract
We report a comprehensive spectroscopic, microscopic, and device-level investigation of the ambient-driven degradation of PTQ10:IDIC bulk-heterojunction organic solar cells (BHJ-OSCs), up to 500 h. The power conversion efficiency dropped from 9.51% to 7.69% (≈19% relative loss), primarily due to a decrease in short-circuit current density (JSC 15.93 to 13.82 mA cm−2), while the open-circuit voltage remained largely stable (0.92 to 0.90 V). Atomic force microscopy reveals surface smoothing upon ageing, with the root-mean-square roughness decreasing from 4.29 to 3.45 nm, and the UV–vis absorption spectra show negligible changes, indicating preserved bulk light-harvesting capability. In contrast, X-ray photoelectron spectroscopy indicates pronounced surface compositional evolution, with a decrease in oxygen (5.18 to 3.18%) and a substantial increase in fluorine content (3.23 to 7.23%),…
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Taxonomy
TopicsOrganic Electronics and Photovoltaics · Silicon and Solar Cell Technologies · solar cell performance optimization
