pH-Induced Orthogonal Photoresponse of trans-Chalcone Isomers and Related Compounds in Equilibria

Colorants Pub Date : 2023-02-17 DOI:10.3390/colorants2010005

Jeonghee Kang, Ketevan Basilashvili, B. Yoo, Jong I. Lee

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Abstract

Photoresponsive molecular devices can be a valuable tool to promote chemical changes in response to multiple signals, such as photons and pH, to deliver drugs or to detect physiological conditions in vivo. For example, trans-chalcones (Ct) from 4′-hydroxyflavylium (F1) and 7-hydroxyflavylium (F2) can undergo cis-trans isomerization by photoreaction into many different structures. The isomerization takes place at a slow rate in response to pH change; however, it can be done in seconds by photoreaction. In the investigation, as confirming the previous reports, 3-(2-hydroxy-phenyl)-1-(4-hydroxy-phenyl)-propenone, the trans-chalcone (CtF1) from F1, produces flavylium ions in pH = 1–4.5. Then, we further discovered that the flavylium quickly releases protons to yield the corresponding quinoidal base (A) in a solution of pH = 5.2 during irradiation with 350 nm. Meanwhile, the photolysis of 3-(2,4-dihydroxy-phenyl)-1-phenyl-propenone, the trans-chalcone (CtF2) from F2 at pH = 5.6, induces photoacid behavior by losing a proton from the trans-chalcone to generate Ct2−. The different outcomes of these nearly colorless chalcones under similar pH conditions and with the same photochemical conditions can be useful when yielding colored AH+, A, or Ct2− in a mildly acidic pH environment with temporal and spatial control using photochemical means.

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ph诱导的反式查尔酮异构体及其相关化合物的正交光响应

光响应分子器件是一种有价值的工具，可以根据光子和pH等多种信号促进化学变化，以传递药物或检测体内的生理状况。例如，来自4′-羟基黄酮(F1)和7-羟基黄酮(F2)的反式查尔酮(Ct)可以通过光化学反应进行顺反异构化，形成许多不同的结构。随着pH值的变化，异构化发生缓慢;然而，它可以通过光反应在几秒钟内完成。在调查中，证实了以前的报道，3-(2-羟基苯基)-1-(4-羟基苯基)-丙烯，从F1反式查尔酮(CtF1)，产生黄离子在pH = 1-4.5。然后，我们进一步发现，在pH = 5.2的溶液中，在350 nm的辐照下，黄酮类化合物快速释放质子生成相应的quinoidal碱(A)。同时，3-(2,4-二羟基苯基)-1-苯基丙烯在pH = 5.6下由F2光解生成反式查尔酮(CtF2)，通过失去反式查尔酮的一个质子生成Ct2−，诱导了光酸行为。这些几乎无色的查尔酮在相似的pH条件和相同的光化学条件下的不同结果，可以用于在轻度酸性的pH环境中产生有颜色的AH+， A或Ct2 -，并利用光化学手段控制时间和空间。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Colorants

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