9-吖啶甲胺和吖啶-9-甲醛作为潜在的荧光寿命 pH 指示剂。

9-Acridinemethanamine and Acridine-9-Carboxaldehyde as Potential Fluorescence Lifetime pH Indicators.

机构信息

Department of Chemistry, University of Bergen, Allégaten 41, 5007, Bergen, Norway.

NGI - Norwegian Geotechnical Institute, Sognsveien 72, 0806, Oslo, Norway.

出版信息

J Fluoresc. 2020 Jul;30(4):901-906. doi: 10.1007/s10895-020-02564-5. Epub 2020 Jun 4.

DOI:10.1007/s10895-020-02564-5

PMID:32494938

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7326797/

Abstract

A significant challenge concerning the development of fluorescence lifetime (FL) based pH sensors is the paucity of fluorophores with sufficiently large FL variation with pH. Acridine is amongst the indicators with highest fluoresce lifetime responses to pH, with a change in lifetime of about 13 ns within a pH range of 5-8. Here we examine the two acridine derivatives, 9-acridinemethanamine (9-AMA) and acridine-9-carbaldehyde (9-ACA) in terms of their FL pH sensitivity and pH sensing range. Both indicators are characterized when dissolved in buffer solutions, as well as when immobilized in support materials. 9-AMA has a change in FL of 11 ns between pH 2-5, both when dissolved in solution and when immobilized in surfactant-filled mesoporous silica. The FL of 9-ACA is not sensitive to pH when dissolved in buffer solutions; however, when covalently bound to amine-modified silica, its FL changes 15 ns between pH 3-6. 9-AMA and 9-ACA represent promising FL in the pH range of pH 2-6, and could potentially form the basis of new FL pH sensors. Graphical Abstract.

摘要

关于荧光寿命（FL）基 pH 传感器的发展，一个重大的挑战是缺乏具有足够大的 pH 变化的荧光团。吖啶是对 pH 具有最高荧光寿命响应的指示剂之一，在 pH 5-8 范围内，寿命变化约为 13 ns。在这里，我们研究了两种吖啶衍生物，9-吖啶甲胺（9-AMA）和吖啶-9-甲醛（9-ACA），以考察它们的 FL pH 灵敏度和 pH 传感范围。当溶解在缓冲溶液中以及固定在支持材料中时，这两种指示剂都具有特征。当 9-AMA 在 pH 2-5 之间溶解在溶液中或固定在表面活性剂填充的介孔硅中时，其 FL 变化为 11 ns。当溶解在缓冲溶液中时，9-ACA 的 FL 对 pH 不敏感；然而，当与胺改性的硅共价结合时，其 FL 在 pH 3-6 之间变化 15 ns。9-AMA 和 9-ACA 在 pH 2-6 的范围内代表了有前途的 FL，并可能成为新的 FL pH 传感器的基础。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/73dc/7326797/41c4ba311a1e/10895_2020_2564_Figa_HTML.jpg

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9-吖啶甲胺和吖啶-9-甲醛作为潜在的荧光寿命 pH 指示剂。

9-Acridinemethanamine and Acridine-9-Carboxaldehyde as Potential Fluorescence Lifetime pH Indicators.

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