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新型十八硼烷激光染料在聚合物薄膜中的掺入:温度依赖的光致发光和红外光谱研究。

Incorporation of the New -Octadecaborane Laser Dyes into Thin Polymer Films: A Temperature-Dependent Photoluminescence and Infrared Spectroscopy Study.

机构信息

Centre of Polymer Systems, Tomas Bata University in Zlin, Tr. Tomase Bati 5678, 760 01 Zlín, Czech Republic.

出版信息

Int J Mol Sci. 2022 Aug 8;23(15):8832. doi: 10.3390/ijms23158832.

DOI:10.3390/ijms23158832
PMID:35955965
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9368784/
Abstract

New -octadecaborane(22) laser dyes have been recently introduced. However, their application in solid thin films is limited, despite being very desirable for electronics. Spectroscopic methods, photoluminescence (PL), and infrared reflection-absorption spectroscopy (IRRAS), are here used to reveal structural responses to a temperature change in thin polymer films made of π- and σ-conjugated and non-conjugated polymers and -octadecaborane(22) and its tetra-alkylatedderivatives. It has been observed that borane clusters are not firmly fixed within polymer matrices and that their ability for diffusion out of the polymer film is unprecedented, especially at higher temperatures. This ability is related to thermodynamic transitions of polymer macromolecular chains. PL and IRRAS spectra have revealed a clear correlation with β-transition and α-transition of polymers. The influence of structure and molecular weight of a polymer and the concentration and the substitution type of clusters on mobility of borane clusters within the polymer matrix is demonstrated. A solution is proposed that led to an improvement of the temperature stability of films by 45 °C. The well-known spectroscopic methods have proved to be powerful tools for a non-routine description of the temperature behavior of both borane clusters and polymer matrices.

摘要

新型十八硼烷(22)激光染料最近已经问世。然而,尽管它们在电子学方面非常理想,但在固态薄膜中的应用却受到限制。本研究采用光谱方法(光致发光(PL)和红外反射吸收光谱(IRRAS)),揭示了π-和σ-共轭及非共轭聚合物以及十八硼烷(22)及其四烷基衍生物制成的聚合物薄膜中结构对温度变化的响应。观察到硼烷簇并未牢固地固定在聚合物基质中,而且它们从聚合物薄膜中扩散的能力是前所未有的,特别是在较高温度下。这种能力与聚合物大分子链的热力学转变有关。PL 和 IRRAS 光谱揭示了与聚合物β-转变和α-转变之间的明确相关性。证明了聚合物的结构和分子量、以及簇的浓度和取代类型对硼烷簇在聚合物基质中迁移率的影响。提出了一种解决方案,使薄膜的温度稳定性提高了 45°C。众所周知的光谱方法已被证明是描述硼烷簇和聚合物基质温度行为的有力工具。

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