通过采用时间分辨荧光光谱技术测量了一种卟啉侧链聚合物薄膜:卟啉丙烯酸酯—苯乙烯共聚物poly[porphyrin acrylate-styrene](P[(por)A-S])在高激发密度下的瞬态荧光特性.实验发现,P[(por)A-S]样品的荧光衰减随聚合物分子浓度的增大而加快.利用Foerster机制的双分子猝灭理论对其浓度猝灭的原因进行了分析,理论结果与实验结果符合较好.研究表明,在高激发密度的情况下,Foerster机制的双分子作用是加快卟啉侧链聚合物初始荧光衰减和降低其发光效率的主要因素.
Transient fluorescence dynamics of a new kind of porphyrin side-chain polymer film [poly[porphyrin acrylate-styrene] (P[(por)A-S]) at high excitation density has been measured by using time-resolved fluorescence spectroscopy. The fluorescence decay becomes more rapid with the increase of the interchain polymer concentration. The origin of the concentration quenching has been analysed according to the Frster-type bimolecular annihilation theory. The theoretical analyses are in good agreement with the experimental results. Rosults show that, in the case of high excitation density, the Frster-type bimolecular annihilation is the main reason of the fast initial luminescence decay and the low luminescence efficiency of the porphyrin side-chain polymers.