具有微弱发射特性的原子取代喹唑啉衍生物作为潜在防晒剂的理论研究

Theoretical Study on the Atom-Substituted Quinazoline Derivatives with Faint Emission as Potential Sunscreens.

作者信息

Zhang Yajie, Ma Min, Shang Changjiao, Cao Yunjian, Sun Chaofan

机构信息

College of Science, Northeast Forestry University, Harbin, Heilongjiang 150040, China.

出版信息

ACS Omega. 2022 Apr 22;7(17):14848-14855. doi: 10.1021/acsomega.2c00316. eCollection 2022 May 3.

DOI:10.1021/acsomega.2c00316

PMID:35557698

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9088953/

Abstract

Two novel compounds (HQS and HQSe) with excited-state intramolecular proton transfer (ESIPT) properties were designed based on the compound 2-(2-hydroxy-3-ethoxyphenyl)-3-quinazolin-4-one (HQ). The parameters related to the ESIPT properties and electronic spectra of HQ and its derivatives were calculated using density functional theory and time-dependent density functional theory methods. The obtained geometric configurations, infrared vibrational spectra, and reduced density gradient scatter plots have shown that the intramolecular hydrogen bond O···H-N has been weakened upon photoexcitation. Moreover, from the scanned potential energy curves, it can be found that the ESIPT processes of the three compounds have no energy barriers. It is noteworthy that HQS and HQSe can strongly absorb light in the UVA region (∼340 nm) and exhibit weak fluorescence emission in the visible light region, which comes from the keto configuration. The special optical properties of HQS and HQSe can promote their application as potential sunscreen agents.

摘要

基于化合物2-(2-羟基-3-乙氧基苯基)-3-喹唑啉-4-酮（HQ）设计了两种具有激发态分子内质子转移（ESIPT）性质的新型化合物（HQS和HQSe）。采用密度泛函理论和含时密度泛函理论方法计算了HQ及其衍生物与ESIPT性质和电子光谱相关的参数。所得到的几何构型、红外振动光谱和密度降低梯度散射图表明，分子内氢键O···H-N在光激发时被削弱。此外，从扫描的势能曲线可以发现，这三种化合物的ESIPT过程没有能垒。值得注意的是，HQS和HQSe在UVA区域（约340 nm）有强烈的光吸收，并在可见光区域表现出较弱的荧光发射，这源于酮式构型。HQS和HQSe的特殊光学性质可促进它们作为潜在防晒剂的应用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4184/9088953/0b5820e03ca3/ao2c00316_0007.jpg

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具有微弱发射特性的原子取代喹唑啉衍生物作为潜在防晒剂的理论研究

Theoretical Study on the Atom-Substituted Quinazoline Derivatives with Faint Emission as Potential Sunscreens.

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