Instrumental methods of analysis
Record details
- ISBN: 9788123923277 (softcover)
- ISBN: 8123923279
-
Physical Description:
print
xvi, 367 pages : illustrations ; 24 cm - Publisher: New Delhi, India : CBS Publishers & Distributors Pvt Ltd, 2019.
- Copyright: [©2013]
Content descriptions
Formatted Contents Note: | Machine generated contents note: 1. Introduction -- 1.0. Introduction -- 1.0.1. Methods of detecting analytes -- 1.0.2. Analytical targets -- 1.1. Analytical Types -- 1.1.1. Qualitative analysis -- 1.1.2. Quantitative analysis -- 1.2. Volumetric Analysis Or Titration -- 1.3. Gravimetry -- 1.3.1. Universal law of Gravitation -- 1.4. Precipitation -- 1.4.1. Conditions for precipitation -- 1.4.2. Factors Affecting Precipitation -- 1.5. Traditional Analytical Techniques -- 1.5.1. Spectroscopy -- 1.5.2. Mass spectroscopy -- 1.5.3. Crystallography -- 1.5.4. Electrochemical analysis -- 1.5.5. Thermal analysis -- 1.5.6. Separation techniques -- 1.5.7. Hyphenated techniques -- 1.5.8. Microscopy -- 4.7. Spectroscopy -- 4.7.1. Introduction -- 4.7.2. Spectroscopy Types -- 4.8. Uv-Visible Spectroscopy -- 4.8.1. Nature of Electronic Transitions -- 4.8.2. Principle of Absorption Spectroscopy -- 4.8.3. Instrumentation -- 4.8.4. UV-Visible absorption spectra -- 4.8.5. Importance of conjugation -- 4.9. Spectrofluorimeter -- 4.9.1. Fluorescence -- 4.9.2. Phosphorescence -- 4.9.3. Singlet and Triplet states -- 4.9.4. Excited state processes in molecules -- 4.9.5. Principle -- 4.9.6. Instrumentation -- 4.9.7. Applications -- 4.10. Atomic Absorption Spectroscopy -- 4.10.1. Introduction -- 4.10.2. Principle -- 4.10.3. Interferences -- 4.10.4. Broadening of a spectra line -- 4.10.5. Instrumentation -- 4.10.6. Applications -- 4.11. Atomic Emission Spectroscopy -- 4.11.1. Principle -- 4.11.2. Instrumentation -- 4.11.3. Applications -- 4.12. Circular Dichroism (Cd) -- 4.12.1. Dichroism -- 4.12.2. Circular dichroism -- 4.12.3. Principle or Operation -- 4.12.4. Performance -- 4.12.5. Applications -- 4.13. Summary -- 5. Spectroscopy-II -- 5.1. Infrared Spectroscopy -- 5.1.1. Introduction -- 5.1.2. Principle -- 5.1.3. Instrumentation -- 5.1.4. Applications -- 5.2. Mass Spectroscopy -- 5.2.1. History -- 5.2.2. Principle -- 5.2.3. Instrumentation -- 5.2.4. Nature of mass spectra -- 5.2.5. Applications -- 5.3. Electron Spin Resonance Spectroscopy -- 5.3.1. Introduction -- 5.3.2. Principle -- 5.3.3. Instrumentation -- 5.3.4. Applications -- 5.4. Summary -- 6. Online Monitoring And Control Devices -- 6.0. Ph -- 6.0.1. pH Measurement -- 6.0.2. pH System -- 6.1. Temperature -- 6.1.1. Thermometer -- 6.1.2. Thermistors -- 6.1.3. Temperature controller -- 6.2. Dissolved Oxygen -- 6.2.1. Temperature effect -- 6.2.2. Environmental impact -- 6.2.3. Dissolved oxygen affects in water supplies -- 6.2.4. Oxygen electrode -- 6.3. Agitation -- 6.3.1. Mixing features and properties -- 6.3.2. Mixing equipments -- 6.4. Sensor -- 6.5. X-Rays -- 6.5.1. X-rays source -- 6.5.2. Diffractometer -- 6.5.3. Electron density -- 6.5.4. Crystals -- 6.5.5. X-ray diffraction -- 6.5.6. Bragg's law -- 6.5.7. Fourier theory -- 6.5.8. Production and detection of X-rays -- 6.5.9. Limitations -- 6.5.10. Applications -- 6.6. Summary -- 7. Separation Techniques -- 7.0. High Performance Liquid Chromatography (Hplc) -- 7.0.1. Introduction -- 7.0.2. Instrumentation -- 7.0.3. Applications -- 7.1. Gas Chromatography -- 7.1.1. Introduction -- 7.1.2. Principle -- 7.1.3. Apparatus -- 7.1.4. Applications -- 7.2. Ion-Exchange Chromatography -- 7.2.1. Introduction -- 7.2.2. Cation exchange resins -- 7.2.3. Anion exchange resins -- 7.2.4. Types of ionisable groups -- 7.2.5. Ion exchange equilibrium -- 7.2.6. Basis for separations -- 7.2.7. Principle -- 7.2.8. Applications -- 7.3. Gel Filtration Chromatography -- 7.3.1. Introduction -- 7.3.2. Principle -- 7.3.3. Applications -- 7.4. Affinity Chromatography -- 7.4.1. Introduction -- 7.4.2. Matrix -- 7.4.3. Ligand -- 7.4.4. Principle -- 7.4.5. Applications -- 7.5. Membrane Separation -- 7.5.1. Ultra filtration (UF) -- 7.5.2. Reverse osmosis -- 7.5.3. Diffusion/Dialysis -- 7.6. Summary -- 8. Nuclear Magnetic Resonance Spectroscopy -- 8.1. Introduction -- 8.2. Nuclear Spin And Magnetic Moment -- 8.2.1. Spinning nuclei-magnetic moments -- 8.2.2. Magnetic moment and magnetic field -- 8.3. Types -- 8.3.1. Low resolution NMR -- 8.3.2. High resolution NMR -- 8.3.3. Instrument components -- 8.4. Principle -- 8.5. Frequency Lock -- 8.6. Double Resonance Or Spin Decoupling -- 8.7. Nuclear Overhauser Effect (Noe) -- 8.8. Carbon-13 Nmr Spectroscopy -- 8.9. Fourier Transform (Ft) Nmr -- 8.9.1. Advantages -- 8.10. Applications -- 8.11. Summary. |
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Subject: | Analytical chemistry |
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Location | Call Number / Copy Notes | Barcode | Shelving Location | Holdable? | Status | Due Date |
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The Pas Campus Library | QD 75.22 .R36 2019 (Text) | 58500000073759 | Stacks | Volume hold | In process | - |