A novel phosphorescence sensor for Co²⁺ ion based on Mn‐doped ZnS quantum dots Journal Articles

abstract

• ABSTRACTN‐acetyl‐l‐cysteine‐capped Mn‐doped ZnS quantum dots (QDs) were prepared by hydrothermal methods. It could emit phosphorescence at 583 nm with the excitation wavelength at 315 nm. The phosphorescence intensity of QDs could be quenched dramatically by increasing the concentration of Co2+ ion. The novel phosphorescence sensor based on N‐acetyl‐l‐cysteine‐capped QDs was developed for detecting Co2+ ion with a linear dynamic range of 1.25 × 10–6–3.25 × 10–5 m. The limit of detection and RSD were 6.0 × 10–8 m and 2.3%, respectively. Interference experiments showed excellent selectivity over numerous cations such as alkali, alkaline earth and transitional metal ions. The possible quenching mechanism was also examined by phosphorescence decays. The proposed phosphorescence method was further applied to the trace determination of Co2+ ion in tap and pond water samples with recoveries of 97.75–103.32%. Copyright © 2013 John Wiley & Sons, Ltd.

authors

• Bian, Wei
• Ma, Jing
• Liu, Qiaoling
• Wei, Yanli
• Li, Yingfu
• Dong, Chuan
• Shuang, Shaomin

status

• published 

publication date

• March 2014

has subject area

• 0301 Analytical Chemistry (FoR)
• 0601 Biochemistry and Cell Biology (FoR)
• Acetylcysteine (MeSH)
• Analytical Chemistry (Science Metrix)
• Cobalt (MeSH)
• Ions (MeSH)
• Luminescent Agents (MeSH)
• Luminescent Measurements (MeSH)
• Manganese (MeSH)
• Quantum Dots (MeSH)
• Sulfides (MeSH)
• Zinc Compounds (MeSH)

published in

• Luminescence  Journal

keywords

• Acetylcysteine
• Cobalt
• Ions
• Luminescent Agents
• Luminescent Measurements
• Manganese
• Quantum Dots
• Sulfides
• Zinc Compounds
• cobalt ion
• doped quantum dots
• phosphorescence sensor

Digital Object Identifier (DOI)

• 10.1002/bio.2520

PubMed ID

• 23681976

start page

• 151

end page

• 157

volume

• 29

issue

• 2