MnO2-DNA nanomaterials toward the dual signal detection of P-aminophenol micropollutants

Xiang Ling Li; Zi Heng Wang; Qin Zhang; Dan Luo; Jing Jing Xie

doi:10.1039/d2ay01484j

MnO₂-DNA nanomaterials toward the dual signal detection of P-aminophenol micropollutants

Xiang Ling Li, Zi Heng Wang, Qin Zhang, Dan Luo, Jing Jing Xie

COLLEGE OF BIOTECHNOLOGY AND PHARMACEUTICAL ENGINEERING

Nanjing Tech University

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

P-Aminophenol (PAP), a potentially toxic and mutagenic compound, is widely distributed in water and soil and has serious side effects on human health. This study presents a convenient, sensitive, and effective dual-signal assay for the detection of PAP in the environment. Two-dimensional manganese dioxide (MnO₂) nanosheets were used as the carrier and quencher for fluorophore-labelled DNA to form a dual-signal nanoprobe, MnO₂-DNA. Based on a specific redox reaction between the MnO₂ nanosheets and target PAP, the corresponding absorption intensity of the product and the fluorescence intensity were both “turn-on” and also exhibited excellent correlation with the concentration of PAP. This strategy not only remarkably simplifies the detection process but also improves the reliability of results due to the dual-signal response, which has promising applications in environmental, clinical, and industrial research fields.

Original language	English
Pages (from-to)	4867-4871
Number of pages	5
Journal	Analytical Methods
Volume	14
Issue number	46
DOIs	https://doi.org/10.1039/d2ay01484j
State	Published - 8 Nov 2022

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title = "MnO2-DNA nanomaterials toward the dual signal detection of P-aminophenol micropollutants",

abstract = "P-Aminophenol (PAP), a potentially toxic and mutagenic compound, is widely distributed in water and soil and has serious side effects on human health. This study presents a convenient, sensitive, and effective dual-signal assay for the detection of PAP in the environment. Two-dimensional manganese dioxide (MnO2) nanosheets were used as the carrier and quencher for fluorophore-labelled DNA to form a dual-signal nanoprobe, MnO2-DNA. Based on a specific redox reaction between the MnO2 nanosheets and target PAP, the corresponding absorption intensity of the product and the fluorescence intensity were both “turn-on” and also exhibited excellent correlation with the concentration of PAP. This strategy not only remarkably simplifies the detection process but also improves the reliability of results due to the dual-signal response, which has promising applications in environmental, clinical, and industrial research fields.",

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T1 - MnO2-DNA nanomaterials toward the dual signal detection of P-aminophenol micropollutants

AU - Li, Xiang Ling

AU - Wang, Zi Heng

AU - Zhang, Qin

AU - Luo, Dan

AU - Xie, Jing Jing

PY - 2022/11/8

Y1 - 2022/11/8

N2 - P-Aminophenol (PAP), a potentially toxic and mutagenic compound, is widely distributed in water and soil and has serious side effects on human health. This study presents a convenient, sensitive, and effective dual-signal assay for the detection of PAP in the environment. Two-dimensional manganese dioxide (MnO2) nanosheets were used as the carrier and quencher for fluorophore-labelled DNA to form a dual-signal nanoprobe, MnO2-DNA. Based on a specific redox reaction between the MnO2 nanosheets and target PAP, the corresponding absorption intensity of the product and the fluorescence intensity were both “turn-on” and also exhibited excellent correlation with the concentration of PAP. This strategy not only remarkably simplifies the detection process but also improves the reliability of results due to the dual-signal response, which has promising applications in environmental, clinical, and industrial research fields.

AB - P-Aminophenol (PAP), a potentially toxic and mutagenic compound, is widely distributed in water and soil and has serious side effects on human health. This study presents a convenient, sensitive, and effective dual-signal assay for the detection of PAP in the environment. Two-dimensional manganese dioxide (MnO2) nanosheets were used as the carrier and quencher for fluorophore-labelled DNA to form a dual-signal nanoprobe, MnO2-DNA. Based on a specific redox reaction between the MnO2 nanosheets and target PAP, the corresponding absorption intensity of the product and the fluorescence intensity were both “turn-on” and also exhibited excellent correlation with the concentration of PAP. This strategy not only remarkably simplifies the detection process but also improves the reliability of results due to the dual-signal response, which has promising applications in environmental, clinical, and industrial research fields.

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EP - 4871

JO - Analytical Methods

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ER -

MnO₂-DNA nanomaterials toward the dual signal detection of P-aminophenol micropollutants

Abstract

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