A fluorescence turn-on sensor for Hg 2+ with a simple receptor available in sulphide-rich environments

Jiangli Fan; Xiaojun Peng; Song Wang; Xiaojian Liu; Honglin Li; Shiguo Sun

doi:10.1007/s10895-011-1033-x

A fluorescence turn-on sensor for Hg ²⁺ with a simple receptor available in sulphide-rich environments

Jiangli Fan, Xiaojun Peng, Song Wang, Xiaojian Liu, Honglin Li, Shiguo Sun

Dalian University of Technology

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

10 Scopus citations

Abstract

Detection of Hg ²⁺ in complex natural environmental conditions is extremely challenging, and no entirely successful methods currently exist. Here we report an easyto- prepare fluorescent sensor B3 with 2-aminophenol as Hg ²⁺ receptor, which exhibits selective fluorescence enhancement toward Hg ²⁺ over other metal ions. Especially, the fluorescence enhancement was unaffected by anions and cations existing in environment and organism. Moreover, B3 can detect Hg ²⁺ in sulphide-rich environments without cysteine, S ^2- or EDTA altering the fluorescence intensity. Consequently, B3 is capable of distinguishing between safe and toxic levels of Hg ²⁺ in more complicated natural water systems with detection limit ≤2 ppb.

Original language	English
Pages (from-to)	945-951
Number of pages	7
Journal	Journal of Fluorescence
Volume	22
Issue number	3
DOIs	https://doi.org/10.1007/s10895-011-1033-x
State	Published - May 2012
Externally published	Yes

Keywords

2-aminophenol
Fluorescent sensor
Hg
Sulphide-rich environments

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10.1007/s10895-011-1033-x

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title = "A fluorescence turn-on sensor for Hg 2+ with a simple receptor available in sulphide-rich environments",

abstract = "Detection of Hg 2+ in complex natural environmental conditions is extremely challenging, and no entirely successful methods currently exist. Here we report an easyto- prepare fluorescent sensor B3 with 2-aminophenol as Hg 2+ receptor, which exhibits selective fluorescence enhancement toward Hg 2+ over other metal ions. Especially, the fluorescence enhancement was unaffected by anions and cations existing in environment and organism. Moreover, B3 can detect Hg 2+ in sulphide-rich environments without cysteine, S 2- or EDTA altering the fluorescence intensity. Consequently, B3 is capable of distinguishing between safe and toxic levels of Hg 2+ in more complicated natural water systems with detection limit ≤2 ppb.",

keywords = "2-aminophenol, Fluorescent sensor, Hg, Sulphide-rich environments",

author = "Jiangli Fan and Xiaojun Peng and Song Wang and Xiaojian Liu and Honglin Li and Shiguo Sun",

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T1 - A fluorescence turn-on sensor for Hg 2+ with a simple receptor available in sulphide-rich environments

AU - Fan, Jiangli

AU - Peng, Xiaojun

AU - Wang, Song

AU - Liu, Xiaojian

AU - Li, Honglin

AU - Sun, Shiguo

PY - 2012/5

Y1 - 2012/5

N2 - Detection of Hg 2+ in complex natural environmental conditions is extremely challenging, and no entirely successful methods currently exist. Here we report an easyto- prepare fluorescent sensor B3 with 2-aminophenol as Hg 2+ receptor, which exhibits selective fluorescence enhancement toward Hg 2+ over other metal ions. Especially, the fluorescence enhancement was unaffected by anions and cations existing in environment and organism. Moreover, B3 can detect Hg 2+ in sulphide-rich environments without cysteine, S 2- or EDTA altering the fluorescence intensity. Consequently, B3 is capable of distinguishing between safe and toxic levels of Hg 2+ in more complicated natural water systems with detection limit ≤2 ppb.

AB - Detection of Hg 2+ in complex natural environmental conditions is extremely challenging, and no entirely successful methods currently exist. Here we report an easyto- prepare fluorescent sensor B3 with 2-aminophenol as Hg 2+ receptor, which exhibits selective fluorescence enhancement toward Hg 2+ over other metal ions. Especially, the fluorescence enhancement was unaffected by anions and cations existing in environment and organism. Moreover, B3 can detect Hg 2+ in sulphide-rich environments without cysteine, S 2- or EDTA altering the fluorescence intensity. Consequently, B3 is capable of distinguishing between safe and toxic levels of Hg 2+ in more complicated natural water systems with detection limit ≤2 ppb.

KW - 2-aminophenol

KW - Fluorescent sensor

KW - Hg

KW - Sulphide-rich environments

UR - https://www.scopus.com/pages/publications/84862205916

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DO - 10.1007/s10895-011-1033-x

M3 - 文章

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AN - SCOPUS:84862205916

SN - 1053-0509

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SP - 945

EP - 951

JO - Journal of Fluorescence

JF - Journal of Fluorescence

IS - 3

ER -

A fluorescence turn-on sensor for Hg ²⁺ with a simple receptor available in sulphide-rich environments

Abstract

Keywords

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