In situ microwave-assisted preparation of NS-codoped carbon dots stabilized silver nanoparticles as an off-on fluorescent probe for trace Hg 2+ detection

In situ microwave-assisted preparation of NS-codoped carbon dots stabilized silver nanoparticles as an off-on fluorescent probe for trace Hg 2+ detection

An off-on fluorescent probe (NS-CDs-AgNPs) was synthesized based on a one-pot microwave process by utilizing N, S co-doping carbon dots (NS-CDs) and silver nitrate as precursors. The significant peak of NS-CDs-AgNPs at 393 nm in ultraviolet spectrum indicated silver nanoparticle (AgNPs) were success...

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Veröffentlicht in:Chemosphere (Oxford) 2023-10, Vol.338, p.139451
Hauptverfasser: Yin, Pengyuan, Zou, Tianru, Yao, Guixiang, Li, Shaoqing, He, Yanzhi, Li, Guizhen, Li, Da, Tan, Wei, Yang, Min
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container_start_page 139451
container_title Chemosphere (Oxford)
container_volume 338
creator Yin, Pengyuan
Zou, Tianru
Yao, Guixiang
Li, Shaoqing
He, Yanzhi
Li, Guizhen
Li, Da
Tan, Wei
Yang, Min
description An off-on fluorescent probe (NS-CDs-AgNPs) was synthesized based on a one-pot microwave process by utilizing N, S co-doping carbon dots (NS-CDs) and silver nitrate as precursors. The significant peak of NS-CDs-AgNPs at 393 nm in ultraviolet spectrum indicated silver nanoparticle (AgNPs) were successfully synthesized. A faint blue fluorescence emission (442 nm) was displayed when excited NS-CDs-AgNPs at 371 nm. A remarkable fluorescence recovery was observed upon adding of trance Hg , whereas the other heavy metal ions did not elicit this response. The reason for this phenomenon was revealed in this work that a spontaneous redox reaction occurred between NS-CDs-AgNPs and Hg , which leaded to the formation of NS-CDs-Ag -2NPsHg complexes. On the basis of this mechanism, a new off-on fluorescent analytical method was constructed for Hg detection with linear range of 10-400 nM (R  = 0.9941), and the detection limit (LOD) of 5.16 nM. Additionally, satisfactory recovery (90.28%-106.13%) and the relative standard deviation (RSD) (RSD<5.21%) were obtained in water sample detection. More importantly, the NS-CDs-AgNPs exhibited lower cytotoxicity and better biocompatibility, indicating a huge potential in cell imaging and clinical medicine.
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The significant peak of NS-CDs-AgNPs at 393 nm in ultraviolet spectrum indicated silver nanoparticle (AgNPs) were successfully synthesized. A faint blue fluorescence emission (442 nm) was displayed when excited NS-CDs-AgNPs at 371 nm. A remarkable fluorescence recovery was observed upon adding of trance Hg , whereas the other heavy metal ions did not elicit this response. The reason for this phenomenon was revealed in this work that a spontaneous redox reaction occurred between NS-CDs-AgNPs and Hg , which leaded to the formation of NS-CDs-Ag -2NPsHg complexes. On the basis of this mechanism, a new off-on fluorescent analytical method was constructed for Hg detection with linear range of 10-400 nM (R  = 0.9941), and the detection limit (LOD) of 5.16 nM. Additionally, satisfactory recovery (90.28%-106.13%) and the relative standard deviation (RSD) (RSD<5.21%) were obtained in water sample detection. More importantly, the NS-CDs-AgNPs exhibited lower cytotoxicity and better biocompatibility, indicating a huge potential in cell imaging and clinical medicine.</description><identifier>EISSN: 1879-1298</identifier><identifier>PMID: 37451632</identifier><language>eng</language><publisher>England</publisher><ispartof>Chemosphere (Oxford), 2023-10, Vol.338, p.139451</ispartof><rights>Copyright © 2023. 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title In situ microwave-assisted preparation of NS-codoped carbon dots stabilized silver nanoparticles as an off-on fluorescent probe for trace Hg 2+ detection
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