409 65 6MB
English Pages IV; 160 [172] Year 1972
Contents Page
Foreword. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
III
1. Introduction..... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2. Molecules selected and their ordering. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3. Description of Tables. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.1 Symmetry.................................................. 3.2 Symmetry number. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.3 Symmetry species. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.4 Numbering of frequencies. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.5 Approximate type of mode..... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.6 Selected value of frequency. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.7 Infrared and Raman spectra. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.8 Comments.................................................. 3.9 References................................................. 4. Tables of vibrational frequencies. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5. Empirical formula index. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..
1 1 2 2 2 2 2 2 2 3 3 3 3 158
IV
TABLE
I.
Ordering of symmetry species
(In the present volume small letters are used to designate the species of fundamental frequencies) Symmetry species
Point group
TABLE
II.
Point group
Definition of local symmetry coordinates
(c) Local symmetry coordinates for the CR group (see fig. Ic) CR stretching: ~rCH CR bending: (2~(3HX - ~(3HY - ~(3Hz)1 v!6 (~(3HY - ~(3HZ) 1v!2 (d) Local symmetry coordinates for the planar CR 2 group (see fig. Id) CR 2 symmetrical stretching: (~rl ~r2) 1 v!2 CR 2 antisymmetrical stretching: (~rl - ~r2) 1 v!2 CR 2 scissors: (2~a - ~(31 - ~(32) 1v!6 CR 2 rocking: (~(31 - 6.(32) 1v!2 CR 2 wagging: ~o -sin a. (e) Local symmetry coordinates for the planar CR group (see fig. Le) CR stretching: tlrCH in-plane CR bending: (~(3HX - ~(3HY) 1v!2 out-of-plane CR bending: ~OH ·sin'YXY.
(a) Local symmetry coordinates for the CR a group (see fig. La) CR a symmetrical stretching: (~rl ~r2 ~ra) 1 v!3 CR a degenerate stretching: (2~rl - ~r2 - ~ra)1 v!6 (~r2 - ~ra)1 v!2 CR a symmetrical deformation: (~a2a ~a31 ~a12 - ~(31 - ~(32 - ~(3a) 1v!6 CR a degenerate deformation: (2~a23 - ~aal - ~(12) 1v!6 (~a31 - ~(12) 1v!2 CR a rocking: (2~(31 - ~(32 - ~(3a) 1v!6 (~(32 - ~(3a) 1v!2. (b) Local symmetry coordinates for the CR 2 group (see fig. Ib) CR 2 symmetrical stretching: (~rl ~r2) 1 v!2 antisymmetrical stretching: (~rl - ~r2) 1 v!2 CR 2 scissors: (4~a - ~(31X - ~(32X - 6.(31Y - ~(32Y) 1v!20 CR 2 wagging: (6.(31X ~(32X - ~(31Y - ~(32y)/2 CR 2 twisting: (~(31X - ~(32X - ~(31Y ~(32Y) 12 CR 2 rocking: (~(31X - ~(32X ~(31Y - ~(32Y) 12.
+
+
+
+
+
+
+
+
Symmetry species
+
7
H H H
H
z
x x x (0 )
( b)
(c)
H
H
x
x (d) FIGURE
TABLE
Notation
y
(e)
1. Parameters of methyl, methylene, and methin groups,
III.
Uncertainty code for the selected values offrequencies Basis*
Uncertainty cmr?
A
0'"'-'1
B
1'"'-'3
C
3'"'-'6
(i)
D
6'"'-' 15
(i)
(i) (ii) (i) (ii)
Gas, prism spectrometer, low resolution (e.g., 1000 '"'-' 2000 em"? for NaCI prism). (ii) Solid, liquid or solution, accurate measurement.
(ii)
E
15 '"'-' 30
Gas, grating spectrometer, rotational fine structure accurately analyzed. Gas, grating spectrometer, a sharp Q branch. Gas, grating spectrometer, rotational fine structure partly analyzed. Gas, prism spectrometer, fairly high resolution (e.g., 700 '"'-' 1000 em"? for NaCI prism).
Gas, prism spectrometer, very low resolution (e.g., >2000 em"! for NaCI prism). Solid, liquid or solution, inaccurate measurement.
(i) Value estimated from Fermi resonance doublet. (ii) Value estimated from overtone or combination tone. (iii) Calculated frequency.
* The uncertainty assigned here to each method of measurement is a typical value; greater accuracy is often achieved with some of the methods.
8
Molecule: MolybdenuIll hexafluoride MoF6 SYIllIlletry Oh SYIllIlletry nUIllber d = 24
Sym. species
No.
Selected value of frequency
Approximate type of mode
No. 52
Infrared
Raman
cm- l
cm- l (Gas) 741.5 VS, p 651.~ W, dp la la 318 W,dp
(~as) al o
VI
eo
V2 V3
flu
V4 V5
f 20
Sym. stretch ............ Deg. stretch ............ Deg. stretch ............ Deg. deform ............ Deg. deform ............ Deg. deform ............
1
742 652 741 264 318 116
B B C C C E
la la 741 VS 264 S la la
Comments
References H. H. Claassen, H. Selig, and J. G. MaIm, J. Chern. Phys. 36, 2888 (1962). B. Weinstock and G. L. Goodman, Advan. Chern. Phys. 9, 169 (1966), and references cited there. H. H. Claassen, G. L. Goodman, J. H. Holloway, and H. Selig, J. Chern. Phys. 53, 341 (1970).
[1] IR.R. [2] IR.R.
[3] R.
No. 53
Molecule: Tungsten hexafluoride WF6 SYIllmetry Oh SYIllIlletry nUIllber d
Sym. species
No.
al o
VI
eo
V2
flu
V3 V4
f 20
V5
f2u
V6
Approximate type of mode
Sym. stretch ............ Deg. stretch ............ Deg. stretch ............ Deg. deform ............ Deg. deform ............ Deg. deform ............
24
Selected value of frequency
771 677 712 258 320 127
B B C C C E
I
Infrared
Raman
cm- l (Gas) la la 712 VS 258 S la la
cm- l (Gas) 771.0 VS, p 677.2. W, dp la la 320 W,dp la
Comments
I
OC
(2V6)
I
References [1] IR.R. [2] IR. f3] R.
B. Weinstock and G. L. Goodman, Advan. Chern. Phys. 9, 169 (1966), and references cited there. S. Abramowitz and I. W. Levin, Inorg. Chern. 6, 538 (1967). H. H. Claassen and H. Selig, Israel J. Chern. 7, 499 (1969).
34
[3].
Molecule Diborane-d 6 Symmetry D2h
Sym. species
Approximate type of mode
No.
blg
V6
C C C D
la la la a592 VW
Ring stretch ............ BD2 wag ............... BD2 a-stretch ........... BD2 rock ............... Ring puckering .......... BD2 a-stretch ...........
1273 870 1999 705 262 1980
C E C E C E
la la 1999 VS
BD2 rock ............... Ring stretch ............
740 E 1465 E
BD2 wag ............... BD2 twist .............. ' BD2 s-stretch ...........
728 C 730 C 1845 C
Vs Vg
b 2g
VlO Vn
b 2u
V13
Vl2 V14
Vl6 Vl6
b 3g b 3u
cm- l (Gas) la
1511 929 726 592
V7 b lu
Infrared
Ring stretch ............ BD2 scis. '" ............ Ring deform ............ BD2 twist ..............
V4 V6
Selected value of frequency
1860 E
V2 , V3 au
Ko.57 4
BD2 s-stretch ...........
Vl
a g
lOB 2D 6 Symmetry number d
I
V17
VlS
Ring deform ............ BD2 scis ................
1205 C 881 C
Raman
cm- l (Liquid) f1880 VS, p }FR \1833 S, P 1511 VS, p 929 p 72~ VS, p la
a
1273 (2) dp
la ........... la OC (Vg 262 M la la f 1975 (9) dp \ (2000 (5))dp la ............ OC (VlO la f1491 M FR (vs \1459 MS 728 S la la 73~ (4) dp la f 1857 VS FR (V3 \ (1799 S) 1205 VS la la 881 VS
} }
Observed very weakly and also confirmed by combination bands.
References r1] IR. [2] IR.R. [3] R. [41 Th.
A. R. R. T.
N. Webb, J. T. Neu, and K. S. Pitzer, J. Chern. Phys. 17, 1007 (1949). C. Lord and E. Nielsen, J. Chern. Phys. 19, 1 (1951). C. Taylor and A. R. Emergy, Spectrochim. Acta 10, 419 (1958). Ogawa and T. Miyazawa, Spectrochim. Acta 20, 557 (1964).
38
(2V3)'
............ OC (vs
I
-
Comments
+ +
V7). VlO).
+ V12). + V7).
+ VlS)'
Molecule: Cyanogen chloride 35CICN SYIllIlletry C oov SYIllIlletry nUIllber d S~.
No.
speCIes
(7"+
VI
V2 V3
7r
(7"+
Approximate type of mode
CN stretch ............. Bend .................. CCI stretch .............
No. 64 1
Selected value of frequency
Infrared
cm- I
cm- 1
2216 A 378 A 744 C
(Gas) 2215.6VS 380 S J 782.6 S t 714.0 S
(Liquid) 2206 (10) 394 (3) 730 (5)
Raman
}
Comments
RP [2]. FR (2V2) [2].
References W. O. Freitag and E. R. Nixon, J. Chern. Phys. 24, 109 (1956), and references cited there. W. J. Lafferty, D. R. Lide, and R. A. Toth, J. Chern. Phys. 43, 2063 (1965).
[1] IR.R. [2] IR.
Molecule: Cyanogen chloride 37CICN SYIllIlletry C oov SYlllllletry nUlllber d
Sym. species
No.
(7"+
VI
7r
(7"+
I
V2 V3
A pproxima te type of mode
CN stretch ............. Bend .................. C CI stretch. . . . .........
No. 65 1
Selected value of frequency
2215 A 378 A 736 C
References See No. 64.
42
Infrared
Raman
,
cm- I
cm- 1
I
(Gas) 2215.3VS 380 S
(Liquid) 2206 (10) 394 (3) 730 (5)
I·········· .
Comments
RP [2]. FR (2V2) [2].
Molecule: Formaldehyde H 2CO Symmetry C 2v Symmetry number d
Sym. species
Approximate type of mode
No.
CH 2 s-stretch ........... CO stretch ............. CH 2 scis ................ CH 2 a-stretch ........... CH 2 rock ............... CH 2 wag ...............
VI
al
V2
Va
bl
V4 V5 V6
b2 I
No. 68 2
Selected value of frequency
2783 A 1746 A 1500 A 2843 A 1249 A 1167 A
Infrared
Raman
cm- l
cm- l
(Gas) 2782.5 S 1746.1 VS 1500.1 S 2843.1 VS 1249.1 S 1167.3 S
(Gas) 2781.6 1742.3 1499.7 2866
S W M W
I
I
I
Comments
I
\
References [1] R. [2] IR. [3] IR. [4] IR.Th.
D. H. K. T.
W. Davidson, B. P. Stoicheff, and H. J. Bernstein, J. Chern. Phys. 22, 289 (1954). H. Blau, Jr. and H. H. Nielsen, J. Mol. Spectrosc. 1, 124 (1957). B. Harvey and J. F. Ogilvie, Can. J. Chern. 40, 85 (1962). Nakagawa, H. Kashiwagi, H. Kurihara, and Y. Morino, J. Mol. Spectrosc., 31, 436 (1969).
Molecule: Formaldehyde-d l HDCO Symmetry C s Symmetry number d
Sym. species
No.
a'
VI V2
Va
a" I
I
V4 V5 V6
Approximate type of mode
CH stretch ............. CD stretch ............. CO stretch ............. CHD scis., ............. CHD rock .............. CHD wag .............. t
No. 69 1
Selected value of frequency
Infrared
2844 D 2121 D 1723 A 1400 B 1041 D 1074 C
Raman
cm- l
cm- l
(Gas) 2844.1 S 2120.7 S 1723.4 VS 1400.0 S 1041 S 1074 S
(Gas) 2846.2 S 2120.3 S 1723.2 VS 1397.4 M
I
Reference [1] IR.R.
D. W. Davidson, B. P. Stoicheff, and H. J. Bernstein, J. Chern. Phys. 22, 289 (1954).
44
Comments
+ V5).
FR (va FR (2V6'
2V5).
Molecule: Forlllaldehyde-d2 D 2CO SYlllllletry C2v SYlllllletry nUlllber d
Syn;t. speCIes
Approximate type of mode
No.
VI
al
V2
Va hI
V4 V5
CD 2 s-stretch ........... CO stretch ............. CD 2 scis ................ CD 2 a-stretch ........... CD 2 rock ............... \ CD 2 wa g ............... \
No. 70 2
Selected value of frequency
Infrared
Raman
cm- 1
cm- I
Comments
(Gas) 2056.4 S ............ FR (2va). 1700 VS 1106.0S 2160.3 VS 990.2 S 938 S
2056 D 1700 B 1106 C 2160 C 990 C 938 E
Reference [1] IR.
E. S. Ebers and H. H. Nielsen, J. Chem. Phys. 6, 311 (1938).
Molecule: Methane SYlllllletry T d
Syn;t. speCIes
No.
al
VI
e
V2
/2
Va V4
a
CH 4
No. 71
12
SYlllllletry nUlllber d
Approximate type of mode
Sym. stretch ............ Deg. deform ............ Deg. stretch ............ Deg. deform ............
Selected value of frequency
V4
Raman
cm- 1 (~as)
cm- I
Ia ia, a1533 3018.9 1306.2
2917 A 1534 A 3019 A 1306 C
Observed in the infrared through Coriolis interaction with
Infrared
Comments
(Gas) 2917.0 1533.6 3019.5
[5].
References [1] [2] [3] [4] [5]
IR.R. IR. R. R. IR.
G. Herzberg, Infrared and Raman Spectra of Poly atomic Molecules (Van Nostrand, New York, 1945). H. C. Allen, Jr., and E. K. Plyler, J. Chem. Phys. 26,972 (1957). M. A. Thomas and H. L. Welsh, Can. J. Phys. 38, 1291 (1960). J. Herranz and B. P. Stoicheff, J. Mol. Spectrosc. 10, 448 (1963). J. Herranz, J. Morcillo, and A. Gomez, J. Mol. Spectrosc. 19, 266 (1966).
45
Molecule: Methane-d l SYInInetry C 3v
Sym. species
No.
CH 3D
No. 72 3
SYInInetry nUInber d
Approximate type of mode
Selected value of frequency
Infrared
cm- l al
VI
CH 3 s-stretch ...........
2945 E
V2
e
V3 V4
CD stretch ............. CH 3 s-deform ........... CH 3 d-stretch ........... CH 3 d-deform CH 3 rock ...............
2200 1300 3017 1471 1155
Vs
I
I
V6
(Gas) f2973 \2914 2200.0 1300 3016.9 ]471 1155
A C B C C
I
Raman
Comments
cm- l
(Gas)
M M M M S
~I
}...........
FR (2vs).
1306 1156
II 1
References [1] IR.R.
G. Herzberg, Infrared and Raman Spectra of Polyatomic Molecules (Van Nostrand, New York, 1945), and references cited there. J. K. Wilmhurst and H. J. Bernstein, Can. J. Chern. 35, 226 (1957). H. C. Allen, and E. K. Plyler, J. Res. NBS 63, 145 (1959). L. H. Jones, J. Mol. Spectrosc. 4, 86 (1960).
[2] IR. [3] IR. [4] IR.
Molecule: Methane-d2 SYInInetry C 2v
Sym. species
No.
Selected value of frequency
CH 2 s-stretch ........... CD 2 s-stretch ........... CH 2 scis ................ CD 2 scis ................ CH 2 twist .............. CH 2 a-stretch ........... I CH 2 rock ............... I CD 2 a-stretch ........... I CH wag ............... 2
Observed in the infrared through Coriolis interaction with
JIg.
V3 V4
Vs
a2
I
Approximate type of mode
C C C C C C C C C
V2
I
No. 73 2
2974 2202 1436 1033 1333 3013 1090 2234 1234
VI
al
!
CH2D 2 SYInInetry nUInber d
bl
V6 V7
b2
Vs V9
I
Infrared
cm- 1 (Gas) 2976M 2202W 1436W 1033 S ia, a1329 W 3013 S 1090S 2234M 1234M
Raman
Comments
cm- l
(Gas) 2974 1034 1333 1090
I a
References [1] IR.R.
G. Herzberg, Infrared and Raman Spectra of Polyatomic Molecules (Van Nostrand, New York,-!945), and refer-
[2] IR.
ences cited there. J. K. Wilmshurst and H. J. Bernstein, Can. J. Chern. 35, 226 (1957).
46
Molecule: Methane-d s Symmetry C sv
Sym. species
Approximate type of mode
No.
V2
Vs e
V4 V5 V6
i
I
No. 74 3
Selected value of frequency
2993 C 2142 C 1003 C 2263 C 1291 C 1036 C
CH stretch ............. CDs s-stretch ........... CD s s-deform ........... CDa d-stretch ........... CDs rock ............... CDs d-deform ...........
VI
UI
CHDs Symmetry number d
Infrared
Raman
cm- I (Gas)
cm- I (Gas)
2993 M 2142 M 1003 M 2263 M 1291 M 1036 S I
I
Comments
2141 2269 1299 1046 I
;
I
I
References See No. 73.
Molecule: Methane-d 4 CD 4 Symmetry number d Symmetry Td
Sym. species
No.
Selected value of frequency
2109 1092 2259 996
B B
Observed in the infrared through Coriolis interaction with
P4
UI e
V2
/2
Vs
VI V4
I a
Approximate type of mode
Sym. stretch ............ Deg. deform ............ Deg. stretch ............ Deg. deform ............
No. 75
12
Infrared
Raman
cm- I
cm- I (Gas)
(~as)
la ia, a1092
2259.3 996.0
A
B
Comments
2108.9 1091.9 2259.3
[5].
References [1] IR.R.
[2] [3] [4] [5]
IR. R. R. IR.
G. Herzberg, Infrared and Raman Spectra of Polyatomic Molecules (Van Nostrand, New York, 1945), and references cited there. H. M. Kaylor and A. H. Nielsen, J. Chern. Phys. 23, 2139 (1955). G. C. Shepherd and H. L. Welsh, J. Mol. Spectrosc. 1, 277 (1957). R. A. Olafson, M. A. Thomas, and H. L. Welsh, Can. J. Phys. 39, 419 (1961). H. Herranz, J. Morcillo, and A. Gomez, J. Mol. Spectrosc. 19, 266 (1966).
47
Molecule: Carbon tetraHuoride CF 4 SYlllllletry T d SYlllllletry nulllber d
Sym. species
Selected value of frequency
Approximate type of mode
No.
No. 76
12
Infrared
Raman
cm- I al
VI
e
V2 V3
12
632 B
Deg. deform ............
V4
I
I
cm- I
(Gas) ia la 1282.6 VS 1260.9 VW 631.73 VS
909 B 435 B 1281 D
Sym. stretch ............ Deg. deform ............ Deg. stretch ............
(Gas) 908.5 S 435.0 S 1283.0 W FR 1263 VW 631.2 S
(2V4).
I
I
I
I
Comments
References [1] [2] [3] [4] [5] [6] [7] [8] [9] [10]
D. M. Yost, E. N. Lassettre, and S. T. Gross, J. Chern. Phys. 4, 325 (1936). C. R. Baeley, J. B. Hale, and H. W. Thompson, Proc. Roy. Soc. (London), Ser. A, 167, 555 (1938). E. K. Plyler and W. S. Benedict, J. Res. NBS 47, 202 (1951), RP 2245. P. J. H. Woltz and A. H. Nielsen, J. Chern. Phys. 20, 307 (1952). W. F. Edgell and R. E. Moynihan, J. Chern. Phys. 27, 155 (1957). B. Monostri and A. Weber, J. Chern. Phys. 33, 1867 (1960). S. Abramowitz and R. Bauman, Spectrochim. Acta 17, 127 (1961). A. Maki, E. K. Plyler, and R. Thibault, J. Chern. Phys. 37, 1899 (1962). S. Abramowitz and R. Bauman, J. Chern. Phys. 39, 2757 (1963). A. A. Chalmers and D. C. McKean, Spectrochim. Acta 22, 251 (1966).
R. IR. IR.Th. IR. IR.Th. R. IR. IR. IR. IR.
Molecule: Carbon tetrachloride CCl 4 SYlllllletry T d SYlllllletry nulllber d
Sym. species
Approximate type of mode
No.
Selected value of frequency
al
VI
e
V2 V3
Sym. stretch ............ Deg. deform ............ Deg. stretch ............
459 C 217 C 776 E
V4
Deg. deform ............
314 C
12 I
I
No. 77
12
{ [
I
Infrared
Raman
cm- I (~as)
cm- I
(Liquid) la 458.7 (10) p la 217.0 (7) dp 789 VS 790.4 (4) dp }FR 768 VS 761.7(4) dp 309.9 W 313.5 (9) dp (liquid)
Comments
(VI
+ V4).
I
References [1] IR.R. [2] R. [3] IR. [4] IR. [5] IR.
[61 R. [7] R.
G. Herzberg, Infrared and Raman Spectra of Polyatomic Molecules (Van Nostrand, New York, 1945).
J. P. Zietlow, F. F. Cleveland, and A. G. Meister, J. Chern. Phys. 18, 1076 (1950). J. R. Madigan and F. F. Cleveland, J. Chern. Phys. 19, 119 (1951). E. K. Plyler and W. S. Benedict, J. Res. NBS 47, 202 (1951), RP2245. H. Yoshinaga, J. Chern. Phys. 23, 2206 (1955).
D. A. Long, D. C. Milner, and A. G. Thomas, Proc. Roy. Soc. (London), Ser. A, 240, 499 (1957). M. Ito, Spectrochim. Acta 21, 731 (1965).
48
l\'Iolecule: Carbon tetrabromide CBr 4 Sym.m.etry Td Sym.m.etry num.ber d
Sym. species
Approximate type of mode
No.
No. 78
12
Selected value of frequency
Infrared
Raman
Comments
cm- 1 (Liquid)
al
VI
e
V2
/2
V3 V4
Sym. stretch ............ Deg. deform ............ Deg. stretch ............ Deg. deform ............
267 122 672 182
cm- 1 (Benzene soln.) la 267 (7) p la 122 (10) dp 671 (1) dp 672 VS ........... 182 (4) dp
C C C C
References [1] [2] [3] [4]
IR.R. R. IR.R. R.
G. Herzberg, Infrared and Raman Spectra of Polyatomic Molecules (Van Nostrand, New York, 1945). A. G ..Meister, S. E. Rosser, and F. F. Cleveland, J. Chern. Phys. 18, 346 (1950). E. K. Plyler, W. H. Smith, and N. Acquista, J. Res. NBS 44, 503 (1950), RP2097. D. A. Long, D. C. Milner, and A. G. Thomas, Proc. Roy. Soc. (London), Sere A, 240, 499 (1957).
No. 79
l\'Iolecule: Carbon tetraiodide CI 4 Sym.m.etry T d Sym.m.etry num.ber d
Sym. species
Approximate type of mode
No.
al
VI
e
1'2
/2
V3 V4
Sym. stretch ............ Deg. deform ............ Deg. stretch ............ Deg. deform ............
r
12
Selected value of frequency
178 90 555 125
D D D E ,
I a
Infrared
Raman
cm-1 (S