1. 1 instrumental analysis and classification

1.2 development history of instrumental analysis

1.3 development trend of instrumental analysis

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Chapter II Molecular Spectral Analysis

2. 1 UV-Vis absorption spectrum analysis

2. 1. 1 Overview

2. 1.2 Basic principle of ultraviolet absorption spectrum analysis

2. 1.3 UV-Vis absorption spectroscopy technology

2. 1.4 application of ultraviolet-visible spectrum in various fields

2. 1.5 Matters needing attention in using ultraviolet-visible absorption spectrophotometer

2.2 infrared absorption spectrum analysis

2 1 overview

2.2.2 Basic principles of infrared absorption spectrum analysis

2.2.3 infrared absorption spectroscopy technology and its progress

2.2.4 Application of infrared absorption spectrum analysis in various fields

2.2.5 Matters needing attention in using infrared spectrophotometer

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Chapter III Atomic Spectral Analysis

3. 1 atomic emission spectrometry analysis

3. 1. 1 Overview

3. 1.2 development of atomic emission spectrometry

3. 1.3 Brief Introduction of Plasma Spectrum

3. Basic principle of1.41CP emission spectrum analysis

3. Working principle and structure of1.51CP-AES spectrophotometer.

3. 1.6 1cp emission spectrum analysis experimental technology

3. Control and data processing of1.7 atomic emission spectrometer

3. Research progress of1.8 pre-emission spectroscopy technology

3. 1.9 application of atomic emission spectrometry in various fields

3. Matters needing attention in the use of1.10 atomic emission spectrometer

3.2 Atomic absorption spectrometry analysis

2. 1 overview

3.2.2 Basic principles of atomic absorption spectrometry

3.2.3 Atomic absorption spectrometry analysis technology and progress

3.2.4 Experimental Technology of Atomic Absorption Spectroscopy

3.2.5 Control and data processing of atomic absorption spectrometer

3.2.6 Research progress of atomic absorption spectrometry technology

3.2.7 Application of Atomic Absorption Spectrometry in Various Fields

3.2.8 Matters needing attention in the use of atomic absorption spectrometer

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Chapter IV Gas Chromatographic Analysis

4. 1 overview

4. Separation principle and characteristics of1.1gas chromatography

4. Theoretical basis of1.2 gas chromatography

4. 1.3 development of gas chromatography analysis

4.2 gas chromatography analysis technology and progress

4.2. 1 Structure and working principle of gas chromatograph

4.2.2 Experimental Technology of Gas Chromatography

4.2.3 Control and data processing of gas chromatograph

4.2.4 New technology of gas chromatography analysis

4.3 Application of gas chromatography technology in various fields

4.3. Application of1in petroleum analysis

4.3.2 Application in Chemical Industry

4.3.3 Application in agriculture

4.3.4 Application in pharmaceutical analysis

4.3.5 Application in Environmental Science

4.3.6 Application in food and its safety

4.4 Matters needing attention in the use of gas chromatograph

4.4. 1 gas purity

4.4.2 Installation and use of chromatographic column

Use of detectors

daily maintenance

4.4.5 Solutions to Common Problems in Capillary Analysis

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Chapter V Analysis of High Performance Liquid Chromatography

5. 1 overview

5. 1. 1 Development of HPLC

5. 1.2 Basic principles of high performance liquid chromatography

5. 1.3 Basic types of high performance liquid chromatography

5. Selection of HPLC method and optimization of conditions for1.4

5.2 High Performance Liquid Chromatography Technology and Progress

5.2. 1 instrument structure and principle

5.2.2 Instrument control and data processing

5.2.3 New Technology of High Performance Liquid Chromatography

5.2.4 Research progress of high performance liquid chromatography technology

5.3 Application of HPLC analysis in various fields

5.3. 1 chemical industry application

5.3.2 Application in medical field

5.3.3 Application in the field of food science

5.3.4 Application in Life Science

5.3.5 Application in the field of environmental science

5.4 Matters needing attention in using high performance liquid chromatograph

5.4. 1 Maintenance of High Performance Liquid Chromatograph

5.4.2 Determination and solutions of common faults in high performance liquid chromatography

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Chapter 6 Mass Spectrometry and Coupling Technology

6. 1 overview

6. Generation and development of1.1mass spectrometry technology

6. 1.2 mass spectrum characteristics

6. 1.3 classification of mass spectrometer

6.2 mass spectrometry technology and its progress

6.2. 1 instrument structure and working principle

6.2.2 Main performance indicators of the instrument

6.2.3 Progress of Mass Spectrometry Technology

6.3 mass spectrometry technology and its progress

6.3. 1 gas chromatography-mass spectrometry

6.3.2 lcms combination technology and progress

6.3.3 maldi-tof combined technology and progress

6.3.4 Mass spectrometry technology and progress

6.4 Application of Mass Spectrometry in Various Fields

6.4. 1 Application in drug analysis

6.4.2 Application in Agriculture and Food

6.4.3 Application of Life Science

6.4.4 Application in Environmental Science

6.4.5 Application in petrochemical industry

6.4.6 Application in Forensic Medicine

6.5 Matters needing attention in using mass spectrometry and mass spectrometry

6.5. 1 Precautions for using GCMs

6.5.2 Matters needing attention in using LCMS

refer to

Chapter VII Analysis of Total Organic Carbon

7. 1 overview

7.2 Total Organic Carbon Analysis Technology and Progress

7.2. 1 total organic carbon analysis technology

7.2.2 New progress of total organic carbon analysis technology

7.3 Structure and working principle of TOC analyzer

7.3. 1 combustion oxidation-non-dispersive infrared absorption total organic carbon analyzer

7.3.2 Total organic carbon analyzer by wet oxidation-non-dispersive infrared absorption method

7.3.3 Selection of determination method of total organic carbon

7.3.4 Accessories and their working principles

7.3.5 Control and data processing of TOC analysis only

7.4 Structure and working principle of TOC online analyzer

7.4. 1 total organic carbon online analyzer structure

J quantity principle

7.4.3 Data Processing System of Total Organic Carbon Online Analyzer

7.5 Application of Total Organic Carbon Analysis in Various Fields

7.5. 1 Application of Total Organic Carbon Analysis in Pharmaceutical Industry

7.5.2 Application of Total Organic Carbon Analysis in Petrochemical Industry

7.5.3 Application of Total Organic Carbon Analysis in Environmental Field

7.6 Matters needing attention in the use of total organic carbon analyzer

Chapter VIII Physical Property Analysis

8. 1 thermal analysis

8. 1. 1 Overview

8. 1.2 development history of thermal analysis technology

8. 1.3 thermal analysis technology

8. 1.4 thermogravimetric analysis and differential thermal analysis

8. 1.5 differential scanning calorimetry

8. 1.6 thermodynamic analysis technology

8. 1.7 Research progress of thermal analysis technology

8. 1.8 precautions for operation of thermal analyzer

8.2 Particle size analysis

8.2. 1 Overview

8.2.2 Basic knowledge of powder

8.2.3 Particle size analysis technology and progress

8.2.4 Influencing factors of particle size analysis results

8.2.5 Research progress of particle size analysis technology

8.2.6 Application of particle size analysis in various fields

8.2.7 Matters needing attention in using particle size analyzer

refer to