Phosphorescence detection of manganese(VII) based on Mn-doped ZnS quantum dots

The phosphorescent l-cysteine modified manganese-doped zinc sulfide quantum dots (l-cys-MnZnS QDs) was developed for a highly sensitive detection of permanganate anions (MnO4−). l-cys-MnZnS QDs, which were easily synthesized in aqueous media using safe and low-cost materials, can emit intense phosph...

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Published inSpectrochimica acta. Part A, Molecular and biomolecular spectroscopy Vol. 173; pp. 578 - 583
Main Authors Deng, Pan, Lu, Li-Qiang, Cao, Wei-Cheng, Tian, Xi-Ke
Format Journal Article
LanguageEnglish
Published England Elsevier B.V 15.02.2017
Subjects
Permanganate anions
Phosphorescence
Zinc sulfide quantum dots
Phosphorescence
Zinc sulfide quantum dots
Permanganate anions
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Abstract The phosphorescent l-cysteine modified manganese-doped zinc sulfide quantum dots (l-cys-MnZnS QDs) was developed for a highly sensitive detection of permanganate anions (MnO4−). l-cys-MnZnS QDs, which were easily synthesized in aqueous media using safe and low-cost materials, can emit intense phosphorescence even though the solution was not deoxygenated. However, the phosphorescence of l-cys-Mn-ZnS QDs was strongly quenched by MnO4− ascribed to the oxidation of l-cys and the increase of surface defects on l-cys-MnZnS QDs. Under the optimal conditions, l-cys-MnZnS QDs offer high selectivity over other anions for MnO4− determination, and good linear Stern-Volmer equation was obtained for MnO4− in the range of 0.5–100μM with a detection limit down to 0.24μM. The developed method was finally applied to the detection of MnO4− in water samples, and the spike-recoveries fell in the range of 95–106%. l-cys-MnZnS QDs were easily synthesized in aqueous media and the intrinsic phosphorescence emissions of l-cys-MnZnS QDs decrease with sequentially increasing concentrations of MnO4− without peak shift. [Display omitted] •L-cys-MnZnS QDs, which were easily synthesized in aqueous media using safe and low-cost materials, can emit intense phosphorescence even though the solution was not deoxygenated.•There are also few reports aimed at MnO4- detection based on phosphorescent QDs.•The developed method was finally applied to the detection of MnO4- in water samples.
AbstractList The phosphorescent l-cysteine modified manganese-doped zinc sulfide quantum dots (l-cys-MnZnS QDs) was developed for a highly sensitive detection of permanganate anions (MnO ). l-cys-MnZnS QDs, which were easily synthesized in aqueous media using safe and low-cost materials, can emit intense phosphorescence even though the solution was not deoxygenated. However, the phosphorescence of l-cys-Mn-ZnS QDs was strongly quenched by MnO ascribed to the oxidation of l-cys and the increase of surface defects on l-cys-MnZnS QDs. Under the optimal conditions, l-cys-MnZnS QDs offer high selectivity over other anions for MnO determination, and good linear Stern-Volmer equation was obtained for MnO in the range of 0.5-100μM with a detection limit down to 0.24μM. The developed method was finally applied to the detection of MnO in water samples, and the spike-recoveries fell in the range of 95-106%.
The phosphorescent l-cysteine modified manganese-doped zinc sulfide quantum dots (l-cys-MnZnS QDs) was developed for a highly sensitive detection of permanganate anions (MnO4−). l-cys-MnZnS QDs, which were easily synthesized in aqueous media using safe and low-cost materials, can emit intense phosphorescence even though the solution was not deoxygenated. However, the phosphorescence of l-cys-Mn-ZnS QDs was strongly quenched by MnO4− ascribed to the oxidation of l-cys and the increase of surface defects on l-cys-MnZnS QDs. Under the optimal conditions, l-cys-MnZnS QDs offer high selectivity over other anions for MnO4− determination, and good linear Stern-Volmer equation was obtained for MnO4− in the range of 0.5–100μM with a detection limit down to 0.24μM. The developed method was finally applied to the detection of MnO4− in water samples, and the spike-recoveries fell in the range of 95–106%. l-cys-MnZnS QDs were easily synthesized in aqueous media and the intrinsic phosphorescence emissions of l-cys-MnZnS QDs decrease with sequentially increasing concentrations of MnO4− without peak shift. [Display omitted] •L-cys-MnZnS QDs, which were easily synthesized in aqueous media using safe and low-cost materials, can emit intense phosphorescence even though the solution was not deoxygenated.•There are also few reports aimed at MnO4- detection based on phosphorescent QDs.•The developed method was finally applied to the detection of MnO4- in water samples.
Author Cao, Wei-Cheng
Lu, Li-Qiang
Deng, Pan
Tian, Xi-Ke
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Keywords Phosphorescence
Zinc sulfide quantum dots
Permanganate anions
Language English
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Snippet The phosphorescent l-cysteine modified manganese-doped zinc sulfide quantum dots (l-cys-MnZnS QDs) was developed for a highly sensitive detection of...
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SubjectTerms Permanganate anions
Phosphorescence
Zinc sulfide quantum dots
Title Phosphorescence detection of manganese(VII) based on Mn-doped ZnS quantum dots
URI https://dx.doi.org/10.1016/j.saa.2016.10.032
https://www.ncbi.nlm.nih.gov/pubmed/27776312
Volume 173
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