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Chromatography and Spectroscopy. Presented by : 2007-CHEM-42 Shadab Anjum Presented to : Dr. Ing Naveed Ramzan. Contents. Introduction Working principle Quantitative Analysis Classification Industrial Application. Chromatography. Introduction .
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Chromatography and Spectroscopy Presented by : 2007-CHEM-42 Shadab Anjum Presented to : Dr. IngNaveedRamzan
Contents • Introduction • Working principle • Quantitative Analysis • Classification • Industrial Application
Introduction • Chromatography is a method of separating mixtures of substances into their pure components. • Stationary phase • Mobile phase • Chromatogram
Working PrincipleIn the chromatography technique the mobile phase rises up to the stationary phase by capillarity.
Quantitative Analysis • Principle of relative Retardation : The motion of solute compared to the motion of flowing solvent in the column is known as principle of relative retardation. • Each solute has its own degree of retardation or retardation factor Rf. Rf = distance moved by the solute band in a time t / distance moved by the flowing solvent in time t
Classifications • Adsorption Chromatography • Column Chromatography • Thin Layer Chromatography • Gas Chromatography • Partition Chromatography • Paper Chromatography
Adsorption Chromatography • Mobile Phase: Liquid or Inert gas • Stationary Phase: Solid (Powdered)
Partition Chromatography • Stationary Phase: Thin layer of liquid over solid • Mobile phase: liquid
Applications • To test drinking water. • To monitor air quality. • To analyze the purity ( Pharmaceutical Industry). • For quality control in food industry. • To identify explosive materials.
Introduction • Spectroscopy deals with the study of interaction of electromagnetic radiation with matter. • Electromagnetic Radiation • Spectrum
Continuous Spectrum: when light is allowed to pass through prism directly from source and examined by spectroscope, such obtained spectrum is called continuous spectrum. • Emission Spectrum: when light emitted by the substance is passed through prism and examined directly with a spectroscope, the spectrum is called Emission Spectrum. • Absorption Spectrum: when light is passed through absorbing substance then its certain wavelengths are missed and dark lines are obtained, such spectrum is called Absorption Spectrum. Classification of Spectra
Quantitative Analysis • The relationship between the waves and nature of particles was given by Planck. • E ∞ f • E = h . f, where, • h = Planck`s constant 6.626*10-34 J s • E = Energy of Photon emitted or absorbed • f = Frequency of radiation emitted or absorbed
Classification of Spectroscopy • Atomic Spectroscopy • Molecular Spectroscopy
Classification of Spectroscopy • Atomic Spectroscopy It deals with the interaction of EMR with atoms. • Molecular Spectroscopy It deals with interaction of EMR with molecules.
Industrial Applications • Spectroscopy is widely use in oil industry for detection of metals. • For detection of elements in Plants and Soil. • It is use for identification of functional groups. • It is widely use in astrology. • Important tool for estimation of Climate.
Reference • http://www.usm.maine.edu/chy/manuals/114/text/Chrom.html • http://loke.as.arizona.edu/~ckulesa/camp/spectroscopy_intro.html • Muhammad ZafarIqbal, Inorganic chemistry, revised Ed 2007-2008, MarkaziKutbKhanaKabeer street Urdu bazaar Lahore.