- Achieving long lifetime of room-temperature phosphorescence via constructing vitrimer networks
- 来源:孙平川研究员个人网站
2022-04-13
- Pure organic polymer materials exhibiting room-temperature phosphorescence (RTP) are highly desired for optoelectronic and biomedical applications. Covalent bonding of phosphors into a polymer matrix has been found to be successful in constructing efficient RTP materials owing to the substantial roles of the polymer matrix in restricting the molecular motion of phosphors and activating RTP emissions, thus fabricating new covalently crosslinked high-performance RTP materials is of great significance. Herein, a reasonable RTP system is constructed by covalently linking the phosphor (BF2epo) into an epoxy-based vitrimer network to obtain fluorescence and RTP double emissions. The 3D crosslinked polymer network
structure restricts the molecular motion of BF2epo, depresses nonradiative transition and shields quenchers effectively. By altering the content of BF2epo, polychromatic photoluminescence and long phosphorescence lifetime are achieved under air conditions. The RTP emission intensity of this vitrimer material can respond to two different stimuli of ammonia and temperature, making it possible to work as sensors with good mechanical properties. Furthermore, the topology rearrangement of a dynamically crosslinked network structure endows this dual emission vitrimer with potential prospects in applications such as device fabrication and processing because of the advantages of excellent thermomechanical properties, high thermal stability, and self-repairing properties.
- [来源:中国聚合物网]