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Volumn 49, Issue 2, 2010, Pages 424-427
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Towards an efficient microsystem for the Real-Time detection and quantification of mercury in water based on a specifically designed fluorogenic binary Task-Specific ionic liquid
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Author keywords
Analytical methods; Environmental chemistry; Fluorescent probes; Ionic liquids; Microsystems
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Indexed keywords
ANALYTICAL METHOD;
AQUEOUS SOLUTIONS;
CHEMICAL EQUATIONS;
ENVIRONMENTAL CHEMISTRY;
FALSE POSITIVE;
FLUORESCENT PROBES;
FLUOROGENICS;
LIQUID PHASE;
LIQUID-LIQUID EXTRACTION;
MERCURY ION;
MICRO DEVICES;
QUICK TESTS;
REAL-TIME DETECTION;
SENSING RESPONSE;
TASK-SPECIFIC IONIC LIQUIDS;
WATER BASED;
WATER USE;
CHEMICAL REACTIONS;
FLUORESCENCE;
IONIZATION OF LIQUIDS;
IONS;
MERCURY (METAL);
MICROSYSTEMS;
PROBES;
SOLVENT EXTRACTION;
WATER SUPPLY;
IONIC LIQUIDS;
FLUORESCENT DYE;
FRESH WATER;
ION;
IONIC LIQUID;
MERCURY;
METAL;
SOLVENT;
ARTICLE;
CHEMISTRY;
COMPUTER SYSTEM;
MASS SPECTROMETRY;
NANOTECHNOLOGY;
ULTRAVIOLET SPECTROPHOTOMETRY;
WATER POLLUTANT;
COMPUTER SYSTEMS;
FLUORESCENT DYES;
FRESH WATER;
IONIC LIQUIDS;
IONS;
MASS SPECTROMETRY;
MERCURY;
METALS;
NANOTECHNOLOGY;
SOLVENTS;
SPECTROPHOTOMETRY, ULTRAVIOLET;
WATER POLLUTANTS, CHEMICAL;
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EID: 73349091239
PISSN: 14337851
EISSN: None
Source Type: Journal
DOI: 10.1002/anie.200905037 Document Type: Article |
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Times cited : (56)
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References (20)
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