Upon successful completion of this course, the delegates will be able to:

• To familiarize participants with the tools and techniques used in spectroscopy analysis and qualitative and quantitative methods
• To provide the skills, knowledge and understanding of principles and practices of spectroscopy analysis
• To understand the recent molecule identification methods.
• To provide all the necessary tools for users to expand their knowledge of analysis using spectroscopy technology
• To solve instrumental and molecular identifying problems

Molecular properties, the structure and bonding nature of organic compounds 

Ultraviolet Spectroscopy:

• The natural of electronic excitations
• Principles of absorption spectroscopy
• Ultraviolet spectrum
• Solvent effect
• Effect of conformation and geometry
• Fieser-Kuhn rules for polyenes

Infrared Spectroscopy (IR):

• Mode of vibration and bending
• Bond properties and absorption trends
• IR spectrometer
• Reading of the spectra
• A survey of the important functional groups with examples
• Nuclear magnetic resonance spectroscopy:
• Nuclear spin states and magnetic moments
• Mechanism of energy absorption (resonance)
• The chemical shift and shielding
• Chemical equivalence integrals
• NMR spectrometer
• The 1H and 13C NMR spectra of important molecules
• Two-dimensional NMR spectra

Mass Spectroscopy (MS):

• Molecular formulas from isotope ratio data
• Some fragmentation patterns
• The mass spectrum
• Mass spectrometer
• Spectrum of many examples
• Problems and troubleshooting
• Exercises and discussion
• More details of the course outline can be provided on request

This course is intended for all Laboratory Chemists, Laboratory Technicians, Chemical Engineers, Instrument Engineers, Laboratory Supervisors, R&D and all laboratory technical staff.