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氢键相互作用增强含羟基萘螺吡喃在极性溶剂中的自发异构化

Spontaneous Isomerization of a Hydroxynaphthalene-Containing Spiropyran in Polar Solvents Enhanced by Hydrogen Bonding Interactions.

作者信息

Shiraishi Yasuhiro, Takagi Shunsuke, Yomo Keiichiro, Hirai Takayuki

机构信息

Research Center for Solar Energy Chemistry, and Division of Chemical Engineering, Graduate School of Engineering Science, Osaka University, Toyonaka 560-8531, Japan.

出版信息

ACS Omega. 2021 Nov 30;6(51):35619-35628. doi: 10.1021/acsomega.1c05400. eCollection 2021 Dec 28.

DOI:10.1021/acsomega.1c05400
PMID:34984293
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8717586/
Abstract

The synthesis of spiropyran dyes exhibiting solvent-driven isomerization even in the dark condition is an important subject for the design of optical materials. A conventional synthesis strategy involves the conjugation of indoline moieties with electron-deficient aromatic moieties. Herein, we report that a spiropyran conjugated with a hydroxynaphthalene moiety () is a new member exhibiting solvent-driven isomerization, even bearing an electron-donating -OH moiety. The dye exists as a colorless spirocyclic (SP) form in nonpolar media. It, however, shows a blue color in polar media, especially in aqueous media, due to the formation of ring-opened merocyanine (MC) forms, where the isomerization terminates in 10 s even at room temperature. The spontaneous SP → MC isomerization originates from the MC forms stabilized by the highly delocalized π-electrons on the hydroxynaphthalene moiety. The solvation in polar media and the hydrogen bonding interaction with water molecules decrease the ground-state energy of the MC forms, triggering spontaneous isomerization. The dye exhibits two MC absorption bands assigned to the trans-trans-cis (TTC) and cis-trans-cis (CTC) isomers. The absorbance of the CTC band increases more significantly with an increase in the water content, and the increase exhibits a linear relationship with a hydrogen-bond donor acidity of solvents. The phenolate oxygen of the CTC form has larger hydrogen-bond acceptor basicity, resulting in stronger stabilization by the water molecule.

摘要

即使在黑暗条件下也能表现出溶剂驱动异构化的螺吡喃染料的合成是光学材料设计的一个重要课题。传统的合成策略涉及吲哚啉部分与缺电子芳族部分的共轭。在此,我们报道一种与羟基萘部分共轭的螺吡喃()是一种新的表现出溶剂驱动异构化的成员,即使带有供电子的-OH部分。该染料在非极性介质中以无色螺环(SP)形式存在。然而,由于开环部花青(MC)形式的形成,它在极性介质中,尤其是在水性介质中呈现蓝色,其中即使在室温下异构化也能在10秒内终止。自发的SP→MC异构化源于由羟基萘部分上高度离域的π电子稳定的MC形式。极性介质中的溶剂化作用以及与水分子的氢键相互作用降低了MC形式的基态能量,引发自发异构化。该染料表现出两个归属于反-反-顺(TTC)和顺-反-顺(CTC)异构体的MC吸收带。随着水含量的增加,CTC带的吸光度增加得更显著,并且这种增加与溶剂的氢键供体酸度呈线性关系。CTC形式的酚盐氧具有更大的氢键受体碱性,从而被水分子更强地稳定。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6be1/8717586/56aa8454475d/ao1c05400_0007.jpg
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