A sensitive near-infrared fluorescent probe for detecting heavy metal Ag+ in water samples

Yawen Zhang; Aiying Ye; Yuewei Yao; Cheng Yao

doi:10.3390/s19020247

A sensitive near-infrared fluorescent probe for detecting heavy metal Ag⁺ in water samples

Yawen Zhang, Aiying Ye, Yuewei Yao, Cheng Yao

School of Chemistry and Moleculai Engineering

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

38 Scopus citations

Abstract

Silver is a common catalyst in industrial production, and the frequent use of Ag⁺ can cause water pollution. Thus, the detection of Ag⁺ in the environment is necessary to determine the level of pollution from silver. In this work, we designed a new, highly selective near-infrared (NIR) fluorescent probe QCy to detect Ag⁺. The probe exhibits “turn-off” fluorescence quenching responses at 760 nm towards Ag⁺ over other relevant cations, with outstanding sensitivity and a low detection limit (0.03 µM), which is considerably lower than the standard of the World Health Organization (WHO) for drinking water (0.9 µM). Meanwhile, QCy showed a very good linearity at a low concentration of Ag⁺ with a ‘naked eye’ visible color change of solution from blue to red. The probe has been applied successfully for the detection of Ag⁺ in real water samples.

Original language	English
Article number	247
Journal	Sensors
Volume	19
Issue number	2
DOIs	https://doi.org/10.3390/s19020247
State	Published - 2 Jan 2019

Keywords

Ag
Fluorescence probe
Selectivity
Sensitivity
Water samples

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10.3390/s19020247

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title = "A sensitive near-infrared fluorescent probe for detecting heavy metal Ag+ in water samples",

abstract = "Silver is a common catalyst in industrial production, and the frequent use of Ag+ can cause water pollution. Thus, the detection of Ag+ in the environment is necessary to determine the level of pollution from silver. In this work, we designed a new, highly selective near-infrared (NIR) fluorescent probe QCy to detect Ag+. The probe exhibits “turn-off” fluorescence quenching responses at 760 nm towards Ag+ over other relevant cations, with outstanding sensitivity and a low detection limit (0.03 µM), which is considerably lower than the standard of the World Health Organization (WHO) for drinking water (0.9 µM). Meanwhile, QCy showed a very good linearity at a low concentration of Ag+ with a {\textquoteleft}naked eye{\textquoteright} visible color change of solution from blue to red. The probe has been applied successfully for the detection of Ag+ in real water samples.",

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AU - Zhang, Yawen

AU - Ye, Aiying

AU - Yao, Yuewei

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N2 - Silver is a common catalyst in industrial production, and the frequent use of Ag+ can cause water pollution. Thus, the detection of Ag+ in the environment is necessary to determine the level of pollution from silver. In this work, we designed a new, highly selective near-infrared (NIR) fluorescent probe QCy to detect Ag+. The probe exhibits “turn-off” fluorescence quenching responses at 760 nm towards Ag+ over other relevant cations, with outstanding sensitivity and a low detection limit (0.03 µM), which is considerably lower than the standard of the World Health Organization (WHO) for drinking water (0.9 µM). Meanwhile, QCy showed a very good linearity at a low concentration of Ag+ with a ‘naked eye’ visible color change of solution from blue to red. The probe has been applied successfully for the detection of Ag+ in real water samples.

AB - Silver is a common catalyst in industrial production, and the frequent use of Ag+ can cause water pollution. Thus, the detection of Ag+ in the environment is necessary to determine the level of pollution from silver. In this work, we designed a new, highly selective near-infrared (NIR) fluorescent probe QCy to detect Ag+. The probe exhibits “turn-off” fluorescence quenching responses at 760 nm towards Ag+ over other relevant cations, with outstanding sensitivity and a low detection limit (0.03 µM), which is considerably lower than the standard of the World Health Organization (WHO) for drinking water (0.9 µM). Meanwhile, QCy showed a very good linearity at a low concentration of Ag+ with a ‘naked eye’ visible color change of solution from blue to red. The probe has been applied successfully for the detection of Ag+ in real water samples.

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A sensitive near-infrared fluorescent probe for detecting heavy metal Ag⁺ in water samples

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Keywords

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