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Atomic and Molecular Absorption Spectrometry for Pollution Monitoring

Atomic and Molecular Absorption Spectrometry for Pollution Monitoring. Instructor: Dr. J. R. Mudakavi, Department of Chemical Engineering, IISc Bangalore. This course deals with one of the most important aspects of spectroscopy and the manage with pollution monitoring. Basically, these two are entirely different subjects, but over the years the use of spectroscopy in pollution monitoring has been on the increase because of the importance and use of operation. Topics covered in this course include Introduction to molecular absorption spectroscopy, Theoretical principles of absorptions chromophotometric contributions, Optical benchmarking, Practice of spectrophotometry, Derivative spectroscopy, Applications of absorption spectrometry to real systems, Ambient air monitoring, Industrial effluents, Metal ions, Continuous monitoring and Biochemical analysis. (from nptel.ac.in)

Course Introduction


Lecture 01 - Course Introduction
Lecture 02 - Atomic Structure
Lecture 03 - Interaction of EM Radiation with Matter
Lecture 04 - Atomic and Molecular Orbitals
Lecture 05 - Interaction of EM Radiation with Matter I
Lecture 06 - Interaction of EM Radiation with Matter II
Lecture 07 - Interaction of EM Radiation with Matter III
Lecture 08 - Emission and Absorption Spectra
Lecture 09 - Molecular Orbital Theory
Lecture 10 - Structure-Property Relationship of Organic Compounds
Lecture 11 - Woodward Fieser Rules, Structure-Property Relationship
Lecture 12 - Beer-Lambert Law
Lecture 13 - Deviations from Beer-Lambert Law, Relative Concentration Error, Instrumentation
Lecture 14 - UV-Visible Spectrophotometry, Instrumentation
Lecture 15 - UV-Visible Spectrophotometry, Instrumentation (cont.)
Lecture 16 - UV-Visible Spectrophotometry, Instrumentation (cont.)
Lecture 17 - Quantitative Analysis by Spectrophotometry I
Lecture 18 - Quantitative Analysis by Spectrophotometry II
Lecture 19 - Quantitative Analysis by Spectrophotometry III
Lecture 20 - Quantitative Analysis by Spectrophotometry IV
Lecture 21 - Fluorescence Spectrophotometry I
Lecture 22 - Fluorescence Spectrophotometry II
Lecture 23 - Fluorescence Spectrophotometry III
Lecture 24 - Instrumentation for Fluorescence
Lecture 25 - Chemical Analysis, Applications
Lecture 26 - Chemiluminescence Principles
Lecture 27 - Status of Spectrophotometry Vis-a-vis Environment
Lecture 28 - Methods of Separation
Lecture 29 - Method Development
Lecture 30 - Determination of Boron and Chloride
Lecture 31 - Determination of Fluoride
Lecture 32 - Determination of Phenols
Lecture 33 - Determination of Arsenic, Residual Free Chlorine and Magnesium
Lecture 34 - Determination of Magnesium, Mercury and Nonionic Surfactants
Lecture 35 - Determination of Nonionic Surfactants, Iron and Phosphate
Lecture 36 - Determination of Nitrite and Manganese
Lecture 37 - Determination of Cadmium, Copper and Lead
Lecture 38 - Determination of Total Hardness and Zinc
Lecture 39 - Determination of Nitrate, Chromium and Aluminum
Lecture 40 - Determination of Aluminum, Cyanide and Sulphate
Lecture 41 - Determination of Sulphate and Ammonia, Conclusions

References
Atomic and Molecular Absorption Spectrometry for Pollution Monitoring
Instructor: Dr. J. R. Mudakavi, Department of Chemical Engineering, IISc Bangalore. This course deals with one of the most important aspects of spectroscopy and the manage with pollution monitoring.