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1. Atomic Absorption Spectroscopy. By H isham E Abdellatef. Advanced Flame and Graphite Furnace Atomic Absorption Spectroscopy Course Instructor: prof. Dr. Hisham Ezzat Abdellatef. Introduction. AAS is used to determine metal element concentration in a sample - PowerPoint PPT Presentation
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ATOMIC ABSORPTION SPECTROSCOPY
By Hisham E Abdellatef
1
FlamePrinciples of Operation ReviewOptimizing the FlameMultielement vs Single Element LampsLamp Performance CheckIncreasing the Linear RangeSlit SelectionBackground CorrectionAir Acetylene and Nitrous Oxide FlamesMatrix ModifiersInstrument Detection Limits (IDL), Method Detection Limits (MDL), andLimits of Quantification (LOQ)Basic Quality ControlHydride GenerationMercury Cold Vapor
FurnacePrinciples of OperationBackground Correction and Performance ChecksThe Three Steps Dry, Char, AtomizeHow to Enhance each Step and ModifiersHandling Difficult MatrixesGraphite Tube SelectionQuality ControlsDetection LimitsQuality AssuranceMethod development/Standard Operating Procedures (SOP)EPA Quality Assurance programsStandards/Blanks
Advanced Flame and Graphite Furnace Atomic Absorption SpectroscopyCourse Instructor: prof. Dr. Hisham Ezzat Abdellatef
Introduction
• AAS is used to determine metal element concentration in a sample
• Can analyze over 62 metal elements
• Cold Vapor AA, Flame AA, and Graphite furnace AA
• Standard addition and standard calibration technique can be used to compute for metal element concentration
4
Technique – Flame Test
5
Atomic Absorption Spectroscopy:An Aussie Invention
• Developed by Alan Walsh in early 1950s.
Introduction
ATOMS
• Nucleus- protons (+ve) and neutrons (neutral).
• Electrons- (-ve) charged particle.
• Shells- consists of subshells.
Nucleus
Bohr’s shell model: SODIUM atom
Shells
Electrons
Shell, Subshells, Electrons• Electrons are arranged according to their
energy levels. They are arrange in subshells, the subshells are arrange in shells and shells are arrange around the nucleus.
Shells
Atom (around the nucleus)
Subshells
Electrons
!Note:Electrons that are near the nucleus has a lower energy level than the electrons that are much far away. However, they experience stronger attraction in the nucleus than those ones that are further away.
‘Exciting’ atoms
• ‘ground’ state: is a status where the atom’s electrons are in their lowest possible energy level. (stable)
• ‘excited’ state: another status where the atom’s electrons absorb enough energy to be promoted to a higher level. Therefore, they are not in their lowest energy level. (unstable)
‘Excited’ atom
Generally, atoms are in their ‘ground state’ but when an atom receives enough input of energy that their electrons requires to be promoted to a higher energy level. They will then turn to their ‘excited state’.
Ground state: sodium atomExcited state: sodium atom
Since, an atom’s excited state is very unstable it rapidly ‘jump’ back down to its ground state. This ‘jump’ then causes the atom to release the energy it absorbed in the form of photons of light.
!Note:Take note that the electron can go back down to its ‘original’ place in more than one jump.