2. UV-VIS spectroscopy
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Fundamentals. Instrumentation. Aplications. Derivative spectroscopy.
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4. Molecular luminescence spectroscopy |
Fundamentals. Variables affecting fluorescence. Relation between concentration and fluorescence. Emission and excitation spectra. Aplications. Phosphorescence.
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6. Atomic absorption spectrometry |
Fundamentals. Flame atomization, electrothermal atomization, vapour generation: Instrumentation. Aplications.
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8. Atomic X Ray spectrometry |
Fundamentals. Fluorescence, absorption and difraction spectrometry. Analytical and operational considerations. Instrumentation. Sample preparation. Aplications. |
Experimental work |
Experiment 1.- Evaluation of the presence of interferents and determination of binary mixtures by UV-VIS spectroscopy.
Experiment 2.- Identification of plastics by FT-IR spectroscopy.
Experiment 3.- Determination of PAH by molecular fluorescence spectroscopy.
Experiment 4.- Determination of Zn in water by flame atomic absorption spectrometry (FAAS). Study of interferences in the determination of Zn and Ca.
Experiment 5.- Determination of K in marine water by flame atomic emission spectrometyy (FAES).
Experiment 6.- Study of the experimental conditions in electrothermal atomic absorption spectrometry: optimization of the atomization program and use of modifiers.
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