离子键合
发色团
磷光
材料科学
分子
烷基
兴奋剂
分子工程
发光
离子液体
荧光粉
持续发光
化学物理
铵
纳米技术
离子化合物
化学
光化学
作者
Wenpeng Ye,Chao Huang,Anqi Lv,Yanhua Gao,Yanfei Li,Huili Ma,Zhengong Meng,Huifang Shi,Long Gu,ZhongFu An,Wei Huang
标识
DOI:10.1038/s41467-026-68468-3
摘要
Ionic bonds possess excellent advantages in organic phosphorescence enhancement due to their intense electrostatic interactions, non-directional, and unsaturated characteristics. Nowadays, host-guest doping is the mainstream strategy for synthesizing room-temperature phosphorescent materials. While this strategy may suffer from compatible molecular configurations between host and guest, it needs precise molecular design and synthesis. Herein, ionic alkyl chain molecules are selected as hosts to prepare ionic phosphorescent materials handily. The host materials are suitable for diverse guests, simply attaching quaternary ammonium groups to chromophores. By altering the isolated chromophores, diverse phosphorescence colors from blue to orange-red can be emitted with long-lived lifetimes up to 572.27 ms. Consecutive ionic bonds can be formed in host-guest materials to construct ionic-bonding networks, thereby effectively restricting the movement of guest molecules and minimizing non-radiative transitions. Notably, the matching principle of the alkyl chain in the ionic host-guest system not only provides an ordered and rigid environment but also stimulates the external heavy-atom effect effectively, thus riveting chromophores for shining phosphorescence. This strategy, through the synergistic effects of host-guest doping and ionic-bonding networks, provides a reference for studying isolated-molecular phosphorescence with non-conjugated hosts.
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