Chapter 1. Spectroscopical methods
1.1. General remarks
1.2. Electrothermal atomic absorption spectrometry
1.3. Fluorescence analysis
1.4. Enhanced two-jet arc plasmatron and other works on atomic emission analysis
1.5. X-ray polycapillary optics
1.6. X-ray radiometric analysis and its applications
1.7. Other spectroscopical methods
References for Chapter 1
Chapter 2. Mass spectrometry and related methods
2.1. General remarks
2.2. Mass reflectron
2.3. Orthogonal entry of a continuous ion beam
2.4. Orbitrap: orbital ion trap
2.5. Electrospray ionization (ERIAD technique)
2.6. Ion-molecular reactions as a path to chemical ionization
2.7. Secondary ion mass spectrometry and fast atom bombardment
2.8. Atmospheric pressure photoionization
2.9. Resonance electron capture negative ion mass spectrometry
2.10. In pursuit of ultra-high resolution
2.11. Ion mobility increment spectrometry
References for Chapter 2
Chapter 3. Chromatographic methods
3.1. General remarks
3.2. Birth of chromatography
3.3. Thin-layer chromatography
3.4. Development of gas chromatography
3.5. Liquid–gas chromatography and chromato-membrane methods
3.6. Enantioselective ligand-exchange chromatography
3.7. Critical chromatography of polymers
3.8. Polycapillary and monolithic chromatographic columns
3.9. Countercurrent chromatography in inorganic analysis
3.10. Other works on chromatography
References for Chapter 3
Chapter 4. Electrochemical methods
4.1. General remarks
4.2. Ion-selective electrodes and electronic tongue
4.3. Voltammetry, especially its stripping version
4.4. Other achievements in the area of electrochemical methods
References for Chapter 4
Chapter 5. Chemical methods of analysis
5.1. General remarks
5.2. Some chemical reactions
5.3. Determination of elements using organic reagents
5.4. Development of titrimetric methods
5.5. Kinetic methods
5.6. Other chemical methods
References for Chapter 5
Chapter 6. Separation and preconcentration methods (apart from chromatography)
6.1. General remarks
6.2. Methodology of analytical preconcentration
6.3. Liquid–liquid extraction
6.4. New sorbents and their application to preconcentration
6.5. Capillary isotachophoresis and other separation techniques
References for Chapter 6
Chapter 7. Other methods
7.1. General remarks
7.2. Stoichiographic method of differentiating dissolution
7.3. Method of molecular condensation nuclei
7.4. Express tests methods
7.5. Elucidation of the structure of organic compounds using spectroscopical data
7.6. Semiconductor gas sensors
7.7. Some original novel devices and appliances
References for Chapter 7
Chapter 8. Analysis of specific objects. Analytical chemistry of individual analytes and
their groups
8.1. General remarks
8.2. Nuclear materials
8.3. Materials for microelectronics and other high-purity substances
8.4. Rare elements, platinum-group metals
8.5. Environmental objects
8.6. Other analysis objects and analytes
8.7. Ensuring the quality of chemical analysis
References for Chapter 8
Chapter 9. Textbooks. Journals. History and methodology of analytical chemistry.
Promotion of this science
9.1. General remarks
9.2. Textbooks and handbooks. Serial publications
9.3. Journals
9.4. Works on the history and methodology of analytical chemistry
9.5. Promotion and popularization of analytical chemistry
References for Chapter 9
Chapter 10. Organizational input
10.1. General remarks
10.2. Work in international organizations
10.3. Work in international journals
10.4. Organization of international conferences
10.5. Russian researchers abroad
10.6. Experience of organizing research in Russia
References for Chapter 10