有兴趣可以看看这个。Wen-YongLai, Michael N Balfour, Jack W Levell, et Poly(dendrimers) with phosphorescent iridium(III) complex-based side chains prepared via ring-opening metathesis polymerization [J] Macromolecules, 2012, 45:2963-摘要:Phosphorescent poly(dendrimers) with a norbornene-derived backbone have been synthesized using ring-opening metathesis polymerization with the Grubbs III The dendrimers are comprised of a heteroleptic iridium(III) complex core with two 2-phenylpyridyl ligands and a phenyltriazolyl ligand, biphenyl-based dendrons, and 2-ethylhexyloxy surface The phenyltriazolyl ligand provides the attachment point to the polymer backbone, and the two poly(dendrimers) differ in the number of dendrons attached to the 2-phenylpyridyl The poly(dendrimer) with one and two dendrons per ligand are termed mono- and doubly The mono- and doubly dendronized poly(dendrimers) were found to have relatively narrow polydispersities, around 4, viscosities approaching those required for inkjet printing, and could be solution processed to form thin The dendrons played an important role in controlling the photophysical properties of the The parent homopolymer with the same iridium(III) complex but no dendrons attached to the ligands had a solution photoluminescence quantum yield (PLQY) of 48% The solution PLQY was found to increase with increasing number of dendrons with the mono- and doubly dendronized materials having solution PLQYs of 65% and 71%, The increase in PLQY is due to decreased intrachain interchromophore A similar trend was observed in the solid state with the parent, mono-, and doubly dendronized polymers having film PLQYs of 2%, 44%, and 58%, respectively, demonstrating that both intra- and interchain interactions are controlled by the 上海有机所丁奎岭先生、戴立信先生等也是研究不对称催化的,有兴趣可以联系他们实验室的研究生。本人就别想了。另外,小木虫上肯定有很多很多化学僧们对这方面很熟悉,去那里问问