CLPFSO Polymer: Performance Data for Cross-Linkable Optoelectronic Devices
by Huiping Xiao·Updated 1mo ago
131.7 KB1files
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Description
A 131.7 KB PDF authored by Huiping Xiao, last updated on 2026-04-30, details the synthesis and performance of a cross-linkable alternating copolymer. The polymer, CLPFSO, achieved a peak luminance efficiency of 3.6 cd/A in a PLED and a maximum power conversion efficiency of 9.51% when used as an additive in a polymer solar cell. The study reports device stability, with the PLED maintaining 78% and the solar cell 81% of their initial efficiency over 30 days.
Use Cases
Benchmarking new polymer materials for device stability based on reported 30-day performance metrics.
Designing cross-linkable active layers for organic electronics based on the described Suzuki polymerization method.
Improving photoelectric conversion efficiency in PLEDs based on the reported luminance efficiency of 3.6 cd/A.
Enhancing the longevity of polymer solar cells based on the additive strategy that maintained 81% PCE over 30 days.
Strengths
Specific performance metrics are provided, including a peak luminance efficiency of 3.6 cd/A and a power conversion efficiency of 9.51%.
Device stability is quantified with concrete numbers: 78% and 81% retention of initial efficiency over a 30-day period.
The polymer synthesis method (Suzuki polymerization) and device architectures (e.g., ITO/PEDOT:PSS/CLPFSO/CsF/Al) are explicitly described.
Limitations
The core data is presented in a 131.7 KB PDF document; the underlying raw numerical or tabular data is not directly accessible.
Row count and column-level documentation are unknown, which may limit suitability assessment for direct computational analysis.
The dataset's scale is limited to the specific polymer and device configurations described in the single study.
Provenance
Source
Huiping Xiao via figshare
Collection Method
Data appears to be generated from laboratory synthesis and device testing, as described in the PDF.
Freshness
Last updated 2026-04-30 05:41:32; freshness should be verified.
Data is contained within a PDF file (131.7 KB); extraction of structured numerical data may require manual effort.