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INTRODUCTION TO ANALYTICAL CHEMISTRY ERT 207 ANALYTICAL CHEMISTRY

INTRODUCTION TO ANALYTICAL CHEMISTRY ERT 207 ANALYTICAL CHEMISTRY. SITI KHALIJAH BINTI MAHMAD ROZI. Overview. INTRODUCTION QUALITATIVE AND QUANTITATIVE ANALYSIS QUANTITATIVE ANALYSIS METHODS A TYPICAL QUANTITATIVE ANALYSIS. INTRODUCTION. Analytical chemistry:

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INTRODUCTION TO ANALYTICAL CHEMISTRY ERT 207 ANALYTICAL CHEMISTRY

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  1. INTRODUCTION TO ANALYTICAL CHEMISTRYERT 207 ANALYTICAL CHEMISTRY SITI KHALIJAH BINTI MAHMAD ROZI

  2. Overview • INTRODUCTION • QUALITATIVE AND QUANTITATIVE ANALYSIS • QUANTITATIVE ANALYSIS METHODS • A TYPICAL QUANTITATIVE ANALYSIS

  3. INTRODUCTION • Analytical chemistry: • Science of extraction, identification and quantification of an unknown sample • It deals with methods for determining the chemical compositions of samples • Based on the used of instruments and methods used to separate, identify and quantify matter. bblee@unimap

  4. INTRODUCTION Figure 1-1: The relationship between analytical chemistry, other branches of chemistry, and the other sciences.

  5. QUALITATIVE AND QUANTITATIVE ANALYSIS • Qualitative analysis: • It establishes the chemical identity of the species in the sample. • It reveals the identity of the elements and compounds in a sample. • Quantitative analysis: • It determines the relative amounts of these species, or analytes, in numerical terms. • It indicates the amount of each substances in a sample.

  6. QUALITATIVE AND QUANTITATIVE ANALYSIS • Analytes are the components of a sample that are determined. • In general, both qualitative and quantitative information are required in an analysis.

  7. QUANTITATIVE ANALYSIS METHODS • A typical quantitative analysis: • TWO (2) measurements • Mass or volume of sample being analyzed. • Some quantity that is proportional to the amount of analytein the sample (e.g. mass, volume, intensity of light or electrical charge). • Gravimetric method: • The mass of the analyte or some compound chemically related to the analyte is determined.

  8. QUANTITATIVE ANALYSIS METHODS • Volumetric method: • The volume of a solution containing sufficient reagent to react completely with the analyte is measured. • Electroanalytical method: • Electrical properties (e.g. potential, current, resistance, electric charge) is measured.

  9. QUANTITATIVE ANALYSIS METHODS • Spectroscopic method: • The interaction between electromagnetic radiation and analyte atoms or molecules or the emission of radiation by analytes. • Other methods: • Mass-to-charge ratio of ions by mass spectrometry • Rate of radiactive decay, heat of reaction, rate of reaction, sample thermal conductivity, optical activity and refractive index. bblee@unimap

  10. A TYPICAL QUANTITATIVE ANALYSIS • A typical quantitative analysis includes the sequence of steps shown in the figure. • The simplest: represented by central vertical pathway. • Depending on the complexity of the sample, the chosen method varies the pathways.

  11. Determination of Polycyclic aromatic Hydrocarbon PAHs) from landfill leachate and sludges Landfill leachate Landfill sludge bblee@unimap

  12. A TYPICAL QUANTITATIVE ANALYSIS 1) Choosing a method • The choice is sometimes difficult and requires experience as well as intuition. • Level of accuracy required – high reliability nearly always requires a large investment of time. • Economic factors – the number of samples that will be analysed. • Complexity of the sample and the number of components in the sample

  13. A TYPICAL QUANTITATIVE ANALYSIS 2) Acquiring the sample • To produce meaningful information, an analysis must be performed on a sample that has the same composition as the bulk of material from which it was taken.

  14. A TYPICAL QUANTITATIVE ANALYSIS • Sampling: • The process of collecting a small mass of a material whose composition accurately represents the bulk of the material being sampled. • We analyzesamples, and we determine substances. • Example: a blood sample is analyzed to determine the concentrations of various substances (e.g. blood gases, glucose).

  15. A TYPICAL QUANTITATIVE ANALYSIS 3) Processing the sample 3.1) Preparing a laboratory sample • Solid samples • Grind the samples • Measure the moisture content of the sample • Dry the solid samples

  16. A TYPICAL QUANTITATIVE ANALYSIS • liquid samples • Keep in sealed container • Sample manipulation and Measurement in an inert atmosphere

  17. A TYPICAL QUANTITATIVE ANALYSIS 3.2) Defining replicate samples • Replicate samples or replicates are portions of a material of approximately the same size that are carried through an analytical procedure at the same time and in the same way. 3.3) Preparing solutions: Physical and chemical changes • Most analyses are performed on solutions of the sample made with a suitable solvent.

  18. A TYPICAL QUANTITATIVE ANALYSIS • Ideally, the solvent should dissolve the entire sample, including the analyterapidly and completely. • Unfortunately, many materials that must be analyzed are insoluble in common solvents. • These samples may require heating with aqueous solutions of strong acids, strong bases, oxidizing agents, reducing agents or combination of the reagents. • Ignite the sample in air or oxygen or to perform a high temperature fusion of the samples in presence of various fluxes

  19. A TYPICAL QUANTITATIVE ANALYSIS 4) Eliminating interferences • A interference or interferent is a species that causes an error in an analysis by enhancing or attenuating (making smaller) the quantity being measured 5) Calibrating and measuring concentration • Calibration is the process of determining the proportionality between analyte concentration and a measured quantity.

  20. A TYPICAL QUANTITATIVE ANALYSIS • This property must vary in a known and reproducible way with the concentration of the analyte. • Ideally, the measurement of the property is directly proportional to the concentration: where k is a proportionality constant. Calibration

  21. A TYPICAL QUANTITATIVE ANALYSIS 6) Calculating results • Computing analyte concentrations from experimental data is usually relatively easy particularly with computers. • The computations are based on the raw experimental instruments, and the stoichiometry of the analytical reaction. 7) Evaluating results by estimated reliability • provide some measure of the uncertainties associated with computed results if the data are to have any value

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