IR Lecture

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Transcript IR Lecture 

Infrared Spectroscopy
I.
Infrared Spectroscopy
A.
Energy Absorption and Vibration
1) IR electromagnetic radiation is just less energetic than visible light
2) This energy is sufficient to cause excitation of vibrational energy levels
c  λυ  3.0 x 108 m/s
3) Wavelength (l) = 2.5-16.7 x 10-6 m

~ 
1
l
 600 - 4000 cm 1  1  10 kcal/mol
1
l
E  h 
hc
l
 hc
h  Planck' s Constant  6.626 x 10 -34 J  s
4)
5)
n = wavenumbers. Larger n = higher energy
Excitation depends on atomic mass and how tightly they are bound
a) Hooke’s Law for 2 masses connected by a spring
(m  m2 )
~  k f 1
m1m2
b)
c)
k = constant
f = force constant = bond strength
m-term = reduced mass
C—H Bond: Reduced Mass = (12+1)/(12x1) = 13/12 = 1.08
C—C Bond: Reduced Mass = (12+12)/(12x12) = 24/144 = 0.167
Many possible absorptions per molecule exist: stretching, bending,…
Vibrational modes leading to IR absorptions:
B.
Using IR in Organic Chemistry
1. Functional Groups have characteristic IR absorptions
2.
Fingerprint Region (600-1500 cm-1) is unique for every molecule and lets
us match an unknown with a known spectrum
Regions of the Infrared Spectrum
4000-2500 cm-1 N-H,
C-H, O-H (stretching)
A. 3300-3600 N-H, O-H
B. 3000 C-H
II. 2500-2000 cm-1 CC and C  N
(stretching)
I.
2000-1500 cm-1 double bonds
(stretching)
A. C=O 1680-1750
B. C=C 1640-1680 cm-1
II. Below 1500 cm-1 “fingerprint”
region
I.
12.8 Infrared Spectra of Some Common Functional Groups
Alkanes, Alkenes, Alkynes
I. C-H, C-C, C=C, C  C have characteristic peaks
A. absence helps rule out C=C or C  C
4.
IR of Alkenes
a. Alkene C—H absorbs at higher energy than alkanes because the
force constant is stronger than alkanes (sp2 hybridization)
b.
Substitution pattern of alkenes give characteristic absorptions
i. Terminal alkenes give 910, 990 cm-1
H
H
C
C
H
ii.
R
Geminal disubstituted gives 890 cm-1
H
R
C
C
H
R
iii. trans disubstituted gives 970 cm-1
H
R
C C
R
H
IR: Aromatic Compounds
I. Weak C–H stretch at 3030 cm1
II. Weak absorptions 1660 - 2000 cm1 range
III. Medium-intensity absorptions 1450 to 1600 cm1
IR: Alcohols and Amines
O–H 3400 to 3650 cm1
A. Usually broad and intense
II. N–H 3300 to 3500 cm1
A. Sharper and less intense than an O–H
I.
IR: Carbonyl Compounds
I.
II.
Strong, sharp C=O peak 1670 to 1780 cm1
Exact absorption characteristic of type of carbonyl compound
A. 1730 cm1 in saturated aldehydes
B. 1705 cm1 in aldehydes next to double bond or aromatic ring
C=O in Ketones
I. 1715 cm1 in six-membered ring and acyclic ketones
II. 1750 cm1 in 5-membered ring ketones
III. 1690 cm1 in ketones next to a double bond or an aromatic ring
I.
II.
1735 cm1 in saturated esters
1715 cm1 in esters next to aromatic ring or a double bond
C=O in Esters