Since the scientist have needed to know the identity and quantity of the materials with which they are working. Consequently, the development of chemical and physical analysis parallels the development of chemistry and physics. This course discuss one of most important methods of instrumental analysis which call Spectroscopy Analysis, the common analytical tool for the determination of elemental analytes in solution. It is based upon the emission light from elemental species aspirated into high temperature argon plasma, which is used for excitation of contained elements.

The quality of analysis depend more on the quality of the operator than that of the instrument, so this course will help laboratory staff   to understand meaning of spectroscopy, and to be apple to make elemental analysis with high sensitivity by spectroscopy.

Introduction

Analytical Chemistry and Chemical Analysis

  • Classical Methods
  • Instrumental Methods

Spectroscopic Methods of Analysis

  • Historical and review
  • Basic Principals
  • Electromagnetic Spectrum
  • Theory of Spectroscopy
  • Absorption
  • Emission
  • Fluorescence
  • Phosphorescence

Type of Spectroscopy Analysis

  • Molecular Spectroscopy analysis
  • Atomic Spectroscopy analysis
  • Atomic Fluorescence Spectrometry (AFS)
  • Atomic Absorption Spectrometry (AAS)
  • Atomic Emission Spectrometry (AES)
  • Flame Photometry
  • Inductively Coupled Plasma (ICP)

Method of Analysis

Sampling , Preparation and Treatment

Interference

Problem and troubleshot

Routine Maintenance

Data analysis

Comparing Spectroscopic Techniques

Spectroscopic Advantages and Disadvantages

Safety requirement

Practical Application

  • Petroleum Analysis
  • Water Analysis
  • Solid Waste Analysis
  • Environmental Analysis

The course is of interest for any person working in any analytical laboratory. Laboratory staff, Chemists, supervisors and technicians.

Course Schedules

  • 5 Days - Dec 14, 2026
  • english
  • face to face
  • California - US
  • $ 5,950
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