基于4-苯基-2-(2-吡啶基)噻唑的铁(III)和pH荧光传感及或逻辑功能构建

Fluorescent Sensing of both Fe(III) and pH Based on 4-Phenyl-2-(2-Pyridyl)Thiazole and Construction of OR Logic Function.

作者信息

Yang Ming-Yang, Zhao Xiao-Long, Zheng Ming-Hua, Wang Yue, Jin Jing-Yi

机构信息

Department of Chemistry, Yanbian University, Yanji city, Jilin, Province, 133002, China.

Key Laboratory of Natural Resources of Changbai Mountain & Functional Molecules, Ministry of Education, Yanbian University, Yanji city, Jilin, Province, 133002, China.

出版信息

J Fluoresc. 2016 Sep;26(5):1653-7. doi: 10.1007/s10895-016-1855-7. Epub 2016 Jul 27.

DOI:10.1007/s10895-016-1855-7

PMID:27465707

Abstract

In the presented paper we investigated a 2-pyridylthiazole derivative, 4-phenyl-2-(2-pyridyl)thiazole (2-PTP), as the molecular fluorescent switches. It was firstly found that 2-PTP could perform a "turn-on" fluorescent sensing for Fe(III) with selectivity and reversibility. A 2:1 stoichiometry between 2-PTP and Fe(III) was determined according to the molar ratio method. The binding constant was evaluated as (1.90 ± 0.05) × 10(5) (L/mol)(2). The detection limit was found as 2.2 × 10(-7) M (S/N = 3). Secondly, 2-PTP also exhibited a pH-dependent dual-emission. The pK a(2-PTP-H(+)/2-PTP) value was then estimated as 2.0. To explain the identical emission at 479 nm of both the Fe(III) coordinated form and the protonated form of the ligand, we proposed a "locked" conformation. Finally, combining the two external stimuli as inputs, an OR logic gate was constructed using the fluorescent emission at 479 nm as the output channel.

摘要

在本文中，我们研究了一种2-吡啶基噻唑衍生物，4-苯基-2-(2-吡啶基)噻唑(2-PTP)，作为分子荧光开关。首先发现，2-PTP能够对Fe(III)进行具有选择性和可逆性的“开启”荧光传感。根据摩尔比法确定了2-PTP与Fe(III)之间的化学计量比为2:1。结合常数评估为(1.90±0.05)×10⁵(L/mol)²。检测限为2.2×10⁻⁷ M(S/N = 3)。其次，2-PTP还表现出pH依赖性的双发射。然后估计pKa(2-PTP-H⁺/2-PTP)值为2.0。为了解释配体的Fe(III)配位形式和质子化形式在479 nm处的相同发射，我们提出了一种“锁定”构象。最后，将这两种外部刺激作为输入，构建了一个以479 nm处的荧光发射为输出通道的或逻辑门。

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基于4-苯基-2-(2-吡啶基)噻唑的铁(III)和pH荧光传感及或逻辑功能构建

Fluorescent Sensing of both Fe(III) and pH Based on 4-Phenyl-2-(2-Pyridyl)Thiazole and Construction of OR Logic Function.

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