Studies of Selective Detection of Picric Acid in Solution Phase Using Fluorescent Polyphosphazene Nanofibers

Wei Wei; Wei-tao Ye; Rong-jie Lu; Ye Zhu; Jing Luo; Yao Gu; Xiao-ya Liu

doi:10.11777/j.issn1000-3304.2015.15166

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Studies of Selective Detection of Picric Acid in Solution Phase Using Fluorescent Polyphosphazene Nanofibers

Research Article | 更新时间：2021-03-19

- Studies of Selective Detection of Picric Acid in Solution Phase Using Fluorescent Polyphosphazene Nanofibers
- Acta Polymerica Sinica Issue 12, Pages: 1477-1485(2015)
- 作者机构：
  
  江南大学化学与材料工程学院食品胶体与生物技术教育部重点实验室,无锡,214122
- 作者简介：
- 基金信息：
- DOI：10.11777/j.issn1000-3304.2015.15166
  CLC：
- Published：20 December 2015，
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Wei Wei, Wei-tao Ye, Rong-jie Lu, Ye Zhu, Jing Luo, Yao Gu, Xiao-ya Liu. Studies of Selective Detection of Picric Acid in Solution Phase Using Fluorescent Polyphosphazene Nanofibers. [J]. Acta Polymerica Sinica (12):1477-1485(2015)
DOI：

Wei Wei, Wei-tao Ye, Rong-jie Lu, Ye Zhu, Jing Luo, Yao Gu, Xiao-ya Liu. Studies of Selective Detection of Picric Acid in Solution Phase Using Fluorescent Polyphosphazene Nanofibers. [J]. Acta Polymerica Sinica (12):1477-1485(2015) DOI： 10.11777/j.issn1000-3304.2015.15166.

摘要

以六氯环三磷腈和4

4'-二羟基二苯砜为单体

通过一步沉淀聚合制备了环交联型聚磷腈荧光纳米纤维(PZS-NF)

对其化学结构、形貌、热稳定性及荧光特性进行了表征;进一步以PZS-NF为荧光化学传感器

研究了其检测液相中苦味酸(PA)的性能

并探讨了检测机理.结果表明:PZS-NF的平均直径为80 nm

高度交联的有机-无机杂化结构赋予了其优异的热稳定性;纳米纤维在369 nm紫外光的激发下

在433 nm具有显著的荧光特性

对液相中的PA表现出了高灵敏、高效和高选择性的荧光猝灭响应;优异的检测性能缘于PZS-NF结构中具有大量富电子的氮原子

通过酸碱相互作用将PA分子富集到纳米纤维表面

从而有效促进了PZS-NF与PA之间形成非荧光基态配合物

同时有利于PZS-NF向PA发生激发态能量转移.

Abstract

The cyclomatrix-type polyphosphazene fluorescent nanofibers(PZS-NFs)were prepared by one-step precipitation polymerization of hexachlorocyclotriphosphazene and 4

4'-sulfonyldiphenol with trimethylamine as acid-accepter and a mixture of toluene and acetone(8:1 by volume)as solvent.The chemical structure

morphology

thermal stability

and fluorescent property of PZS-NFs

were characterized by Fourier transform infrared spectroscopy

X-ray photoelectron spectroscopy

scanning electron microscopy

transmission electron microscopy

thermal gravity analysis

and fluorescence spectroscopy

respectively.Then PZS-NFs were served as a fluorescent chemical sensor for the detection of PA in solution phase by a spectrofluorometric titration method using a spectrofluorometer.The selective detection performance was investigated

and the corresponding detection mechanism was also discussed.The results showed that the mean diameter of the nanofibers was 80 nm.The highly cross-linked and organic-inorganic hybrid structure endowed the nanofibers with excellent thermal stability.The initial thermal decomposition temperature was as high as 520℃ in nitrogen atmosphere.The nanofibers exhibited an intrinsically fluorescent emission at 433 nm when excited at 369 nm

and showed the fluorescence quenching response towards PA with high sensitivity

efficiency

and selectivity over a number of other analytes including 2

6-trinitrotoluene

4-dinitrotoluene

3-dinitrobenzene

4-nitrophenol

nitrobenzene

4-benzoquinone

chlorobenzene

and nitromethane in methanol.The quenching constant and detection limit for PA were 1.81104 M-1 and 80 g/L

respectively.The specific recognition of PA by PZS-NFs might be attributed to the effective enrichment of PA from solution to the surface of PZS-NFs realized by the acid-base interaction between the acidic phenolic hydroxyl groups of PA molecules and the electron-rich nitrogen atoms of the cyclotriphosphazene units in PZS-NFs

facilitating the formation of a ground-state non-fluorescent complex of the nanofibers and PA as well as the excited-state energy transfer from the nanofibers to PA.Considering the simple preparation and high selectivity

PZS-NFs have a great potential to serve as a fluorescence chemical sensor for the detection of PA in practice.

关键词

聚磷腈纳米纤维荧光苦味酸选择性检测

Keywords

PolyphosphazeneNanofibersFluorescencePicric acidSelective detection

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Related Institution

The Key Laboratory of Synthetic and Biological Colloids, Ministry of Education, School of Chemical and Material Engineering, Jiangnan University

State Key Laboratory for Modification of Chemical Fibers and Polymer Materials, College of Materials Science and Engineering, Donghua University

University of Chinese Academy of Sciences

Key Laboratory of Polymer Ecomaterials, Changchun Institute of Applied Chemistry, Chinese Academy of Sciences

Institute of Theoretical Chemistry, State Key Laboratory of Supramolecular Structure and Materials, Jilin University

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