祝贺黄小波和吴华悦老师指导研究生王梦竹在dyes and pigments上发表学术论文 | |||
---|---|---|---|
日期:2018-10-08阅读:次 | |||
标题(中文):基于巴比妥酸的1,4-二氢吡啶衍生物具有多种颜色发射转换固态酸致变色性质的研究 标题(英文):solid-state acidochromic properties of barbituric acid-based 1,4-dihydropyridine derivatives with multiple coloured emissions switching 刊物名称及期号、页码: dyes and pigments, 2019, 160, pp 378–385 作者姓名(中文):王梦竹 钱乐彬 郭阳 吴华悦 刘妙昌 高文霞 李国兴 丁金昌 黄小波 作者姓名(英文):mengzhu wang, lebin qian, yang guo, huayue wu, miaochang liu,wenxia gao, guoxing li, jinchang ding ,xiaobo huang 摘要(英文): solid-state acidochromic (ssac) molecules often exhibit dual-coloured rather than multi-coloured stimuli-responsive properties. to obtain the molecule possessing a multi- coloured emission switching based on one specific solid-state of a single molecule, a new d-π-a type 1,4-dihydropyridine derivative 4a containing barbituric acid and n,n-dimethylaniline unit, which contains multiple sites that can be combined with h , is designed and synthesized. compound 4a is confirmed to have twisted molecular conformation by crystallographic data and exhibits aggregation-induced emission characteristic. upon the stimuli of acid-base system, 4a exhibits rare seven-coloured emission switching in solid-state. another 1,4-dihydropyridine derivative 4b based on 1,3-dimethylbarbituric acid is synthesized for comparison. compared with 4b which only displays three-coloured solid-state emission switching, 4a exhibits a more abundant colour change, which might be attributed that the nitrogen atoms on the n-h bonds are also involved in the process of protonation and deprotonation, slowing down the transformation between d-π-a and a-π-a structures. the results provide a new idea for the development of multicolor ssac materials. 研究现状(中文):有机智能材料由于其在荧光传感器,存储设备,安全油墨领域的潜在应用,已经深入研究了固态排放在外部刺激(机械力,ph,温度,蒸汽和光)下的可逆转换。等等。在这些材料中,尽管溶液中的ph驱动荧光开关是常见的,但关于固态酸性变色(ssac)现象的报道非常有限。这种现象的一个重要原因是,由于臭名昭著的聚集引起的猝灭效应,大多数有机分子通常不发射或弱的固态荧光。最近,唐等人报道了聚集诱导发射(aie)效应,即发现一些有机分子在溶液中发出弱荧光,但在固态下显着增强荧光。显然,aie效应的发现为具有ssac活性有机分子的开发带来了有希望的益处。此外,大多数报道的具有ssac特性的荧光化合物仅在用酸性 - 碱性蒸汽熏蒸时显示出双色发射转换,其通常源自分子结构的质子化和去质子化。据我们所知,基于单个荧光分子的一种特定固态的多色发射转换很少被报道,因此这种现象仍然是一个挑战,值得探讨。 创新点(中文): 1. 两种新的1,4-二氢吡啶衍生物的合成和表征。 2. aie活性化合物表现出固态酸致变色 3.巴比妥酸类化合物在固态下显示罕见的七色发射转换。
原文链接:
| |||
0 | |||
|