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The book provides the key information about the instrumental analytical methods which are the most used in quantitative analysis.
The book provides the key information about the instrumental analytical methods which are the most used in quantitative analysis.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 524
- Erscheinungstermin: 30. Januar 2025
- Englisch
- Abmessung: 254mm x 178mm
- ISBN-13: 9781032039152
- ISBN-10: 1032039159
- Artikelnr.: 72542481
- Herstellerkennzeichnung Die Herstellerinformationen sind derzeit nicht verfügbar.
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 524
- Erscheinungstermin: 30. Januar 2025
- Englisch
- Abmessung: 254mm x 178mm
- ISBN-13: 9781032039152
- ISBN-10: 1032039159
- Artikelnr.: 72542481
- Herstellerkennzeichnung Die Herstellerinformationen sind derzeit nicht verfügbar.
Gwenola Burgot, Pharmacist, PhD, formerly Professor in Analytical Chemistry, Faculty of Pharmaceutical and Biological Sciences of University of Rennes 1. Scientific adviser for the collection database "Techniques de l'Ingénieur". Her research interests and publications involve the determination by continuous adiabatic titration calorimetric method of physicochemical equilibrium, water/n-octanol kinetic and thermodynamic parameters of transfer of drugs and the optimization of analytical methods for quantitative analysis of drugs in pure form or formulations. Jean-Louis Burgot, Pharmacist, PhD in organic chemistry and PhD in analytical chemistry - thermometric titrimetry, formerly Professor in Analytical Chemistry, Faculty of Pharmaceutical and Biological Sciences of University of Rennes 1. His research interests and publications involve the synthesis and study of the physico-chemical properties of 1,2-Dithiole-3-thiones and derivatives, and the determination of thermodynamic and kinetic constants of pharmacologically active compounds. He has published seven books in French and English.
SEPARATION METHODS: INTRODUCTION TO THE METHODS OF SEPARATION. Separation
of a Mixture of Distinct Phases. Resolution of a Solid Phase in its
Constituents. Separation by Rupture of Phase. Partition
Coefficient-Thermodynamic Basis. Dialysis-Osmosis and Reverse Osmosis.
Generalities Upon the Liquid-Liquid Extractions. One Stage of Liquid-Liquid
Extraction: Batch Extraction. Crosscurrent Extraction or Repetitive
Batchwise Extraction by an Immiscible Solvent. Countercurrent Extraction.
Countercurrent Separation or Discontinuous Liquid-Liquid Countercurrent
Separation. Solid Phase Extraction and Microextraction. Distillation.
Chromatographic Methods: An Overview. Fundamental Theoretical Aspects of
Elution Chromatography. Practical Consequences of the Plates Theory:
Qualitative and Quantitative Aspects of the Chromatography. Basic
Principles of Chromatographic Modes. Instrumental Chromatographic Methods.
Electro-Migration Techniques . SPECTRAL METHODS: INTRODUCTION TO THE
SPECTRAL METHODS. Instrumentation in Spectrophotometry. Ultraviolet-visible
Spectroscopy I: Generalities. Ultraviolet-visible Spectroscopy II:
Applications Analytiques. Molecular Luminescence Spectrometry:
Fluorescence, Phosphorescence and Chemiluminescence. Turbidimetry and
Nephelometry. Nuclear Magnetic Resonance Spectroscopy with Continuum Waves:
General Principles. N.M.R. Spectra Fundamentals: Characteristics and
Analytical Applications. Fourier Transforms and Fourier Transforms N.M.R.
Electron Spin Resonance (E.S.R.) and Electron Paramagnetic Resonance
(E.P.R.). Infrared Spectroscopy I: Fundamentals of Infrared Spectra.
Infrared Spectroscopy II: Apparatus, Qualitative and Quantitative Analysis
MID, Infrared Reflection and Near-Infrared Spectrometries. Raman
Spectroscopy. Polarimetry. Rotatory Dispersion: Circular Dichroism.
Introduction to the Atomic Absorption and Emission Spectroscopies. Atomic
Absorption Spectrometry. Atomic Emission Spectrometry. Analysis by X-Rays.
Radiochemical Methods of Analysis. VARIOUS METHODS: INTRODUCTION:
DEFINITIONS AND CLASSIFICATION OF THE THERMAL METHODS OF ANALYSIS.
Thermogravimetry. Thermal Differential Analysis and Calorimetric
Differential Analysis. Thermometric Titration. Mass Spectrometry. Some
Kinds of Mass Spectrometry and Some Mass Spectrometers and Components.
Applications of Mass Spectrometry. Criteria of Purity. Appendices.
of a Mixture of Distinct Phases. Resolution of a Solid Phase in its
Constituents. Separation by Rupture of Phase. Partition
Coefficient-Thermodynamic Basis. Dialysis-Osmosis and Reverse Osmosis.
Generalities Upon the Liquid-Liquid Extractions. One Stage of Liquid-Liquid
Extraction: Batch Extraction. Crosscurrent Extraction or Repetitive
Batchwise Extraction by an Immiscible Solvent. Countercurrent Extraction.
Countercurrent Separation or Discontinuous Liquid-Liquid Countercurrent
Separation. Solid Phase Extraction and Microextraction. Distillation.
Chromatographic Methods: An Overview. Fundamental Theoretical Aspects of
Elution Chromatography. Practical Consequences of the Plates Theory:
Qualitative and Quantitative Aspects of the Chromatography. Basic
Principles of Chromatographic Modes. Instrumental Chromatographic Methods.
Electro-Migration Techniques . SPECTRAL METHODS: INTRODUCTION TO THE
SPECTRAL METHODS. Instrumentation in Spectrophotometry. Ultraviolet-visible
Spectroscopy I: Generalities. Ultraviolet-visible Spectroscopy II:
Applications Analytiques. Molecular Luminescence Spectrometry:
Fluorescence, Phosphorescence and Chemiluminescence. Turbidimetry and
Nephelometry. Nuclear Magnetic Resonance Spectroscopy with Continuum Waves:
General Principles. N.M.R. Spectra Fundamentals: Characteristics and
Analytical Applications. Fourier Transforms and Fourier Transforms N.M.R.
Electron Spin Resonance (E.S.R.) and Electron Paramagnetic Resonance
(E.P.R.). Infrared Spectroscopy I: Fundamentals of Infrared Spectra.
Infrared Spectroscopy II: Apparatus, Qualitative and Quantitative Analysis
MID, Infrared Reflection and Near-Infrared Spectrometries. Raman
Spectroscopy. Polarimetry. Rotatory Dispersion: Circular Dichroism.
Introduction to the Atomic Absorption and Emission Spectroscopies. Atomic
Absorption Spectrometry. Atomic Emission Spectrometry. Analysis by X-Rays.
Radiochemical Methods of Analysis. VARIOUS METHODS: INTRODUCTION:
DEFINITIONS AND CLASSIFICATION OF THE THERMAL METHODS OF ANALYSIS.
Thermogravimetry. Thermal Differential Analysis and Calorimetric
Differential Analysis. Thermometric Titration. Mass Spectrometry. Some
Kinds of Mass Spectrometry and Some Mass Spectrometers and Components.
Applications of Mass Spectrometry. Criteria of Purity. Appendices.
SEPARATION METHODS: INTRODUCTION TO THE METHODS OF SEPARATION. Separation
of a Mixture of Distinct Phases. Resolution of a Solid Phase in its
Constituents. Separation by Rupture of Phase. Partition
Coefficient-Thermodynamic Basis. Dialysis-Osmosis and Reverse Osmosis.
Generalities Upon the Liquid-Liquid Extractions. One Stage of Liquid-Liquid
Extraction: Batch Extraction. Crosscurrent Extraction or Repetitive
Batchwise Extraction by an Immiscible Solvent. Countercurrent Extraction.
Countercurrent Separation or Discontinuous Liquid-Liquid Countercurrent
Separation. Solid Phase Extraction and Microextraction. Distillation.
Chromatographic Methods: An Overview. Fundamental Theoretical Aspects of
Elution Chromatography. Practical Consequences of the Plates Theory:
Qualitative and Quantitative Aspects of the Chromatography. Basic
Principles of Chromatographic Modes. Instrumental Chromatographic Methods.
Electro-Migration Techniques . SPECTRAL METHODS: INTRODUCTION TO THE
SPECTRAL METHODS. Instrumentation in Spectrophotometry. Ultraviolet-visible
Spectroscopy I: Generalities. Ultraviolet-visible Spectroscopy II:
Applications Analytiques. Molecular Luminescence Spectrometry:
Fluorescence, Phosphorescence and Chemiluminescence. Turbidimetry and
Nephelometry. Nuclear Magnetic Resonance Spectroscopy with Continuum Waves:
General Principles. N.M.R. Spectra Fundamentals: Characteristics and
Analytical Applications. Fourier Transforms and Fourier Transforms N.M.R.
Electron Spin Resonance (E.S.R.) and Electron Paramagnetic Resonance
(E.P.R.). Infrared Spectroscopy I: Fundamentals of Infrared Spectra.
Infrared Spectroscopy II: Apparatus, Qualitative and Quantitative Analysis
MID, Infrared Reflection and Near-Infrared Spectrometries. Raman
Spectroscopy. Polarimetry. Rotatory Dispersion: Circular Dichroism.
Introduction to the Atomic Absorption and Emission Spectroscopies. Atomic
Absorption Spectrometry. Atomic Emission Spectrometry. Analysis by X-Rays.
Radiochemical Methods of Analysis. VARIOUS METHODS: INTRODUCTION:
DEFINITIONS AND CLASSIFICATION OF THE THERMAL METHODS OF ANALYSIS.
Thermogravimetry. Thermal Differential Analysis and Calorimetric
Differential Analysis. Thermometric Titration. Mass Spectrometry. Some
Kinds of Mass Spectrometry and Some Mass Spectrometers and Components.
Applications of Mass Spectrometry. Criteria of Purity. Appendices.
of a Mixture of Distinct Phases. Resolution of a Solid Phase in its
Constituents. Separation by Rupture of Phase. Partition
Coefficient-Thermodynamic Basis. Dialysis-Osmosis and Reverse Osmosis.
Generalities Upon the Liquid-Liquid Extractions. One Stage of Liquid-Liquid
Extraction: Batch Extraction. Crosscurrent Extraction or Repetitive
Batchwise Extraction by an Immiscible Solvent. Countercurrent Extraction.
Countercurrent Separation or Discontinuous Liquid-Liquid Countercurrent
Separation. Solid Phase Extraction and Microextraction. Distillation.
Chromatographic Methods: An Overview. Fundamental Theoretical Aspects of
Elution Chromatography. Practical Consequences of the Plates Theory:
Qualitative and Quantitative Aspects of the Chromatography. Basic
Principles of Chromatographic Modes. Instrumental Chromatographic Methods.
Electro-Migration Techniques . SPECTRAL METHODS: INTRODUCTION TO THE
SPECTRAL METHODS. Instrumentation in Spectrophotometry. Ultraviolet-visible
Spectroscopy I: Generalities. Ultraviolet-visible Spectroscopy II:
Applications Analytiques. Molecular Luminescence Spectrometry:
Fluorescence, Phosphorescence and Chemiluminescence. Turbidimetry and
Nephelometry. Nuclear Magnetic Resonance Spectroscopy with Continuum Waves:
General Principles. N.M.R. Spectra Fundamentals: Characteristics and
Analytical Applications. Fourier Transforms and Fourier Transforms N.M.R.
Electron Spin Resonance (E.S.R.) and Electron Paramagnetic Resonance
(E.P.R.). Infrared Spectroscopy I: Fundamentals of Infrared Spectra.
Infrared Spectroscopy II: Apparatus, Qualitative and Quantitative Analysis
MID, Infrared Reflection and Near-Infrared Spectrometries. Raman
Spectroscopy. Polarimetry. Rotatory Dispersion: Circular Dichroism.
Introduction to the Atomic Absorption and Emission Spectroscopies. Atomic
Absorption Spectrometry. Atomic Emission Spectrometry. Analysis by X-Rays.
Radiochemical Methods of Analysis. VARIOUS METHODS: INTRODUCTION:
DEFINITIONS AND CLASSIFICATION OF THE THERMAL METHODS OF ANALYSIS.
Thermogravimetry. Thermal Differential Analysis and Calorimetric
Differential Analysis. Thermometric Titration. Mass Spectrometry. Some
Kinds of Mass Spectrometry and Some Mass Spectrometers and Components.
Applications of Mass Spectrometry. Criteria of Purity. Appendices.