One‐Component Artificial Gustatory System Based on Hydrogen‐Bond Organic Framework for Discrimination of Versatile Analytes

Hydrogen‐bond organic frameworks (HOFs) with excellent structural and luminescent properties have emerged as a promising material for the construction of fluorescence sensors. However, designing a facile, universal and high throughput sensor with multiplex detection capacity still remains challengin...

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Published inAdvanced functional materials Vol. 33; no. 24
Main Authors Jiang, Minhao, Yan, Xiangyu, Wang, Yibo, Pu, Fang, Liu, Huiling, Li, Yumei, Yang, Chunfeng, Zhu, Jiawei, Liu, Xuemeng, Ren, Jinsong, Qu, Xiaogang
Format Journal Article
LanguageEnglish
Published Hoboken Wiley Subscription Services, Inc 01.06.2023
Subjects
antibiotic mechanisms
bacteria
Hydrogen
hydrogen‐bond organic frameworks
Materials science
one‐component
Optical properties
Sensor arrays
universality
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Abstract Hydrogen‐bond organic frameworks (HOFs) with excellent structural and luminescent properties have emerged as a promising material for the construction of fluorescence sensors. However, designing a facile, universal and high throughput sensor with multiplex detection capacity still remains challenging. Herein, a one‐component sensor array is constructed that mimics natural gustatory system for accurate and high‐throughput discrimination and identification of versatile analytes. HOF as a single sensing element greatly simplifies the probe preparation in sensor array and detection procedure. Metal ions, proteins and bacteria as the model targets are rapid and accurately discriminated, presenting the universality of the system. Particularly, the system is successfully used for the classification of antibiotic mechanisms. The study expands the application scope of HOFs and provides a facile and universal system for sensing applications. A one‐component sensor array that mimics natural gustatory system is constructed using hydrogen‐bond organic framework (HOF) for rapid and accurate discrimination and identification of versatile analytes, including metal ions, proteins and bacteria. Particularly, the system is successfully used for the classification of antibiotic mechanisms. The study expands the application scope of HOF and provides a facile and universal sensing system.
AbstractList Hydrogen‐bond organic frameworks (HOFs) with excellent structural and luminescent properties have emerged as a promising material for the construction of fluorescence sensors. However, designing a facile, universal and high throughput sensor with multiplex detection capacity still remains challenging. Herein, a one‐component sensor array is constructed that mimics natural gustatory system for accurate and high‐throughput discrimination and identification of versatile analytes. HOF as a single sensing element greatly simplifies the probe preparation in sensor array and detection procedure. Metal ions, proteins and bacteria as the model targets are rapid and accurately discriminated, presenting the universality of the system. Particularly, the system is successfully used for the classification of antibiotic mechanisms. The study expands the application scope of HOFs and provides a facile and universal system for sensing applications. A one‐component sensor array that mimics natural gustatory system is constructed using hydrogen‐bond organic framework (HOF) for rapid and accurate discrimination and identification of versatile analytes, including metal ions, proteins and bacteria. Particularly, the system is successfully used for the classification of antibiotic mechanisms. The study expands the application scope of HOF and provides a facile and universal sensing system.
Hydrogen‐bond organic frameworks (HOFs) with excellent structural and luminescent properties have emerged as a promising material for the construction of fluorescence sensors. However, designing a facile, universal and high throughput sensor with multiplex detection capacity still remains challenging. Herein, a one‐component sensor array is constructed that mimics natural gustatory system for accurate and high‐throughput discrimination and identification of versatile analytes. HOF as a single sensing element greatly simplifies the probe preparation in sensor array and detection procedure. Metal ions, proteins and bacteria as the model targets are rapid and accurately discriminated, presenting the universality of the system. Particularly, the system is successfully used for the classification of antibiotic mechanisms. The study expands the application scope of HOFs and provides a facile and universal system for sensing applications.
Author Li, Yumei
Liu, Huiling
Ren, Jinsong
Jiang, Minhao
Yan, Xiangyu
Yang, Chunfeng
Qu, Xiaogang
Wang, Yibo
Liu, Xuemeng
Pu, Fang
Zhu, Jiawei
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Snippet Hydrogen‐bond organic frameworks (HOFs) with excellent structural and luminescent properties have emerged as a promising material for the construction of...
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SubjectTerms antibiotic mechanisms
bacteria
Hydrogen
hydrogen‐bond organic frameworks
Materials science
one‐component
Optical properties
Sensor arrays
universality
Title One‐Component Artificial Gustatory System Based on Hydrogen‐Bond Organic Framework for Discrimination of Versatile Analytes
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Volume 33
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