infrared absorption spectroscopy. ir spectroscopy deal with the interaction of infrared radiation...
TRANSCRIPT
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Infrared Absorption Spectroscopy
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IR Spectroscopy• deal with the interaction of infrared radiation with matter
IR spectrum (%T against Frequency)• chemical nature and molecular structure of cpd
Applications• organic materials• polyatomic inorganic molecules• organometallic compounds
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IR region of the electromagnetic spectrum• wavelength 770 nm to 1000 m (wave number 12,900 to 10 cm-1)
IR region is often further subdivided into threesubregions
1.Near-infrared region (nearest to the visible)2.Mid-infrared region3.Far-infrared region
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Table Infrared Spectral Regions
Region
Near
Middle
Far
Most used
Wavelength Range, m
wavenumberRange, cm-1
0.78 to 2.5
2.5 to 50
50 to 1000
2.5 to 15
12800 to 4000
4000 to 200
200 to 10
4000 to 670
Frequency (v)Range, Hz
3.8x1014 to 1.2x1014
1.2x1014 to 6.0x1012
6.0x1012 to 3.0x1011
1.2x1014 to 2.0x1013
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IR Spectrum
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Mid-infrared region
1. Group-frequency region
2. Finger print region
• wavenumber 4000 to 1300 cm-1 (2.5 to 8 m)• functional group
• wavenumber 1300 to 650 cm-1
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Infrared Spectrometry• useful for quantitative analysis, although it is considerably more difficult to achieve accurate and precise results with IR spectrometry than with UV-visible methods
• Beer’s Law provides the basis of quantitative IR method as it does in UV-visible spectrophotometry
Electromagnetic radiationUV-visible electronic transitioninfrared vibration, rotation
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Basis of Infrared Absorption
The IR spectrum can be obtained with gas-phase or with condensed-phase molecules.
For gas-phase, molecules vibration-rotation spectra are observed.
For condensed-phase, the rotaional structure is lost.
‘Vibrational spectroscopy’
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Requirements for the absorption of IR radation1. The natural frequency of vibration of the molecules must equal the frequency of the incident radiation
2. The frequency of the radiation must satisfy, E = hv,where E is the energy difference between the vibrational states involved
hEEE vibvib 2,1,
3. The change in vibration must stimulate changes in the dipole moment of the molecule
IR active / IR inactive
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Types of Molecular Vibrations
IR Vibration of bonds
1.Stretching2.Bending
Stretching vibration
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1.Symmetric stretching2.Asymmetric stretching
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C
H
H
C
H
H
Symmetric stretching
Asymmetric stretching
Methylene
(~2853 cm-1)
(~2926 cm-1)
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Bending vibration
กิารเปล��ยนแปลงม�มระหว"างสองพั�นธะ1.Scissoring2.Rocking3.Wagging4.Twisting
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In plane
Out of plane
Bending
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Vibrational mode of methylene group
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Number of Vibrational Modes
Fundamental vibrational modes = 3N-6 Nonlinear molecule
Linear molecule
Fundamental vibrational modes = 3N-5
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Nonlinear molecule: ็H2O
Vibrational modes = 3(3) - 6 = 3
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Linear molecule: CO2
Vibrational modes = 3N-5 = 3(3)-5 = 4
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Molecular Vibration
A molecule is made up ofa number of atoms joined by chemical bonds. Such atoms vibrate about each other in the same way as weights held together by springs
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Hooke’s Law states that two masses joined by a spring will vibrate such that
k
(1)
where = the frequency (rad/sec), but since 2
we have
k
2
1 (2)
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where = the frequency of vibration, k is the force constant of the bond (N/cm), and is the reduced mass, or
21
21
MM
MM
(3)
where M1 is the mass of one vibrating body, M2 the mass of the other. But is in cyles per second (cps).During this time light travels a distance measured in cm/sec (I.e., the speed of light).
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Therefore, if one divides by c, the result is the number of cycle per cm. This is , the wavenumber of an absorption peak (cm-1) and
c
(4)
It can be deduced that
k
c2
1 (5)
k
x 12103.5 (6)
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Example
Calculate the approximate wavenumber and wavelength of the fundamental absorption peak due to the stretching vibration of a carbonyl group C=O
k
x 12103.5
The mass of the carbon atom in kg is given by
kgx
atomxmolatomsx
molkgxM
2610
23
3
1
0.2
1/1002.6
/1012
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Similar, for oxygen
kgxx
xM 26
23
3
2 107.2)1002.6(
)1016(
and the reduced mass is given by
21
21
MM
MM
kgx
kgx
kgxxkgx
26101.1
10)7.20.2(
107.2100.226
2626
The force constant for the typical double bond is about 1x103 N/cm. Substituting this value and into eq. (5) gives
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13
26
312
106.1
101.1
/101/103.5
cmx
kgx
cmNxcmsx
The carbonyl stretching band is found experimentally to be in the region of 1600 to 1800 cm-1 (6.3 to 5.6 m)
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Frequencies of various group vibrations in the group frequency region and in fingerprint region
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Instrumentation
Three distinct types of instruments employed for IR absorption spectrometry
1. Dispersive instruments with a monochromator are used in the mid-IR region for spectral scanning and quantitative analysis
2. Fourier transform IR systems are widely applied in the far-IR region and becoming quite popular for mid-IR spectrometry
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3. Nondispersive instruments that use filters for wavelength selection or an infrared-absorbing-gas in the detection system are often used for gas analysis at specific wavelength
Instrumentation
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Block diagram of IR spectrophotometer
source samplemonochromatordetector readout
Nernst GlowerGlobarIncandescent wire sourceHg Arc
GratingFilter
Thermal DThermocoupleThermopileThermisterBolometerPneumatic DPyroelectric D
RecorderXY plotterPrinter
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IR sources: general
• an inert solid that is heated electrically to a temperature between 1500 and 2200 K (provide continuous radiant)
• the maximum radiant intensity at these temperatures occurs at between 5000 and 5900 cm-1
(2 to 1.7 m)
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IR sourcesThe Nernst Glower (Continuous source)
• useful and inexpensive source• rare earth oxides formed into a cylinder having a diameter of 1 to 2 mm and a length of perhaps 20 mm• platinum leads are sealed to the end of the cylinder to permit passage of electricity; temperatures between 1200 and 2200 K result• because of a negative temperature coefficient of resistance, it must be used with ballast resistor in the heating circuit to prevent burnout
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IR sourcesThe Nernst Glower (Continuous source)
• it is rather fragile, and its lifetime depends on the operating temperature and the care taken in handling it
(cont.)
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IR sourcesThe Nernst Glower (Continuous source)
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IR sourcesThe globar (continuous source)• a silicon carbide rod, usually about 50 mm in length and 5 mm in diameter• current through the globar causes the rod to heat and emit radiation at temperature exceeding 1000 oC• the power consumption is normally higher than that of the Nernst Glower• water cooling is needed to cool the metallic electrodes attached to the rod• less convenient to use and more expensive because of the necessity for water cooling
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IR sources
Incandescent wire source• somewhat lower intensity but longer life than the Globar or Nernst glower
• a tightly wound spiral of nichrome wire heated to about 1100 K by an electrical current
• a rhodium-wire heater sealed in a ceramic cylinder has a similar properties as a source
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IR sourcesThe Mercury arc
• for the far-infrared region of the spectrum 50 m)
• provide sufficient energy for convenient detection
• consist of a quartz-jacketed tube containing mercury vapour at a pressure greater than one atmosphere
• passage of electricity through the vapour forms an internal plasma source that provides continuous radiation in the far-infrared region
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IR sourcesThe Mercury arc
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IR sources
The Tungsten filament lamp
• the near-infrared region of4000 to 12,800 cm-1
(2.5 to 0.78 m)
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Infrared Detectors
General types of infrared detectors:
1. Thermal Detectors
2. Pyroelectric Detectors
3. Photoconducting Detectors
Dispersive spectrophotometer
Fourier Transform multiplex instrument
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Infrared Detectors
Thermal Detectors• widely used in the IR region of the spectrum
• responses depends upon the heating effect of radiation
Problem:
The problem of measuring infrared radiation by thermal means is compounded by thermal noise from surrounding
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Infrared Detectors
Solution:
Thermal detectors are usually encapsulated and carefully shielded from thermal radiation emitted by other nearby objects
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Infrared DetectorsThermal detectors: Thermocouples
• a thermocouple is made by welding together at each end two wires made from different metals.• If one welded joint (called the hot junction) becomes hotter than the other joint (the cold junction), a small electrical potential develops between the joints
Metal A
Metal B welded junction(cold)
welded junction(hot)
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Infrared DetectorsThermal detectors: Thermocouples
In IR spectroscopy, the cold junction is carefully screened in a protective box and kept at a constant temperature. The hot junction is exposed to the IR radiation, which increases the temperature of the junction. The potential difference generated in the wires is a function of the temperature difference between the junctions and, therefore, of the intensity of IR radiation falling on the hot junction.
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Infrared DetectorsThermal detectors: Thermocouples
A well-designed thermocouple detector is capable of responding to temperature difference of 10-6 K. This figure corresponds to a potential difference ofabout 6 to 8 V/W
To enhanced sensitivity, several thermocouples may be connected in series to give what a called a
‘thermopile’
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Infrared DetectorsThermal detectors: Thermistor/Bolometer
A bolometer is a type of resistance thermometer constructed of strips of metals such as platinum or nickel, or from a mixture of metal oxide; the latter devices are sometimes called thermistors. These materials exhibit a relatively large change in resistance as a function of Temperature.
The thermistor is normally placed in a bridge circuit with a reference thermistor that is not irradiated. The resistance can be measured by a null-comparison method