# Fluorinated Trimers for Enhancing the Stability and Solubility of Organic Small Molecules Without Spectral Shifts: Ultrastable Ultraviolet Absorbers for Transparent Polyimide Films

**Authors:** Tae Gyu Hwang, Suhyeon Kim, Hong Mo Kim, Woo Jin Choi, Hyun Kyu Lee, Wan Soo Kim, Jun Ho Yoon, Yoo Sang Kim, Dong Jun Lee, Seung Yul Kim, Sang Goo Lee, Jae Pil Kim

PMC · DOI: 10.1002/chem.202501742 · 2025-07-02

## TL;DR

A new fluorinated trimer design improves the stability and solubility of UV absorbers without changing their optical properties, making them suitable for transparent polyimide films.

## Contribution

A fluorinated phenyl linker enables trimerization of small molecules to enhance stability and solubility without spectral shifts.

## Key findings

- F-TPBT shows a 5 wt% decomposition temperature of 427°C and minimal weight loss at 300°C.
- F-TPBT retains its absorption properties after 80 hours of accelerated UV irradiation.
- F-TPBT has excellent solubility in dichloromethane and NMP.

## Abstract

The development of highly stable organic small molecules for optical applications is of growing interest. Multimerization of monomeric small molecules can enhance stability via increased π–π stacking, but it often reduces solubility and induces undesirable spectral shifts due to π‐extension. To overcome this trade‐off, we report a trimeric small molecule (F‐TPBT) derived from a model monomer (Tinuvin 327) using a 1,3,5‐fluorinated phenyl linker. This design markedly improves thermal stability and solubility while minimizing changes in the optical absorption spectrum. F‐TPBT shows superior thermal properties (5 wt% decomposition temperature = 427 °C; weight loss after 1 hour at 300 °C = 0.32 wt%) and excellent solubility (5.3 wt% in dichloromethane; 6.4 wt% in N‐methylpyrrolidone (NMP)), with an absorption spectrum nearly identical to that of Tinuvin 327. These properties make F‐TPBT a promising UV light absorber for transparent polyimide (TPI) films, which require processing above 300 °C and are widely used in flexible displays. Notably, F‐TPBT‐containing films retain their absorption properties even after 80 hours of accelerated UV irradiation, demonstrating excellent photostability. This study presents a broadly applicable molecular design strategy for enhancing the stability and solubility of organic small molecules while avoiding significant spectral shifts.

A molecular design strategy employing a fluorinated phenyl linker to trimerize small molecules was validated using a model small molecule (Tinuvin 327 UV absorber). The resulting trimer (F‐TPBT) showed greatly enhanced thermal stability and solubility with minimal spectral change. This strategy provides significant insight into the rational design of highly stable molecules for commercial optical applications.

## Linked entities

- **Chemicals:** Tinuvin 327 (PubChem CID 77470), dichloromethane (PubChem CID 6344), N-methylpyrrolidone (PubChem CID 13387), NMP (PubChem CID 13387)

## Full-text entities

- **Chemicals:** F-TPBT (-), N-methylpyrrolidone (MESH:C038678), dichloromethane (MESH:D008752)

## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12351421/full.md

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Source: https://tomesphere.com/paper/PMC12351421