The infrared spectra of crystalline 1,2-, 1,3-, and 1,4-naphthalenediols in KBr or CsI pellets have been interpreted on the basis of a comparison with the spectra of other naphthalene derivatives. Assignments have been proposed for all but four vibrations which are expected to fall below 300 cm−1.
ScottA. I., Quart, Rev.19, 1 (1965). ThompsonR. B. and ChemicekJ. A., Ind. Eng. Chem.47, 1431 (1955).
2.
Handbook of Chemistry and Physics, WeastR. C., Ed. (Chemical Rubber Publishing Co., Cleveland, 1972), 52nd ed., p. C 380.
3.
See, for instance, MichaelianK. H. and ZieglerS. M., Appl. Spectrosc.27, 13 (1973) and references therein; WangT. W. and SandersJ. M., Spectrochim. Acta15, 1118 (1959); WernerR. L.KennardW., and RaysonD., Australian J. Chem.8, 346 (1955).
4.
van GemertJ. T., Australian J. Chem.21, 2203 (1968).
5.
VogelI., A Textbook of Practical Organic Chemistry. (Wiley, New York, 1958), 3rd ed., p. 745.
6.
GautierJ. and HauwC., Compt. Rend. Acad. Sci. Paris 8 Groupe, 261, 3818 (1965).
7.
WilsonE. B.Jr.DeciusJ. C., and CrossP. C., Molecular Vibrations (McGraw-Hill, New York, 1955), Chap. 10.
8.
MitraS. S. and BernsteinH. J., Can. J. Chem.37, 583 (1959).
9.
ScullyD. B. and WhiffenD. H., Spectrochim Acta16, 1409 (1960).
10.
ZhirnovN. I., Opt. Spectrosc.9, 385 (1960).
11.
FreemanD. E. and RossI. G., Spectrochim. Acta16, 1393 (1960).
12.
HansonD. M., J. Chem. Phys.51, 5063 (1969) and references.
13.
BrandmuellerJ. and SchmidE., Z. Physik144, 428 (1956).
14.
BellamyL. J., The Infrared Spectra of Complex Molecules (Methuen, London, 1958); BruhnW. and MeckeR., Z. Electrochem.62, 441 (1958).
