A historical discussion of the development of low-temperature infrared spectroscopy to facilitate the study of structure and thermodynamic properties of molecules is presented. This includes a literature review with 612 references.
AbramovitchR. A., “The Infrared Spectra of Malonates and Oxalates: Temperature Effect,”Can. J. Chem.37, 1146 (1959).
2.
AcquistaN.SchoenL. J., and LideD. R.Jr., “Infrared Spectrum of the Matrix-isolated OH Radical,”J. Chem. Phys.48 (4), 1534 (1968).
3.
AlcockW. G. and PimentelG. C., “Infrared Spectrum of Dichlorine Dioxide, (ClO)2,”J. Chem. Phys.48 (5), 2373 (1968).
4.
AllinE. J.MayA. D.StoichaffB. P.StrylandJ. C., and WelshH. L., “Spectroscopy Research at the McLennan Physical Laboratories of the University of Toronto,”Appl. Opt.6, 1597 (1967).
5.
AmesL. L.WhiteD., and MannD. E., “Infrared Absorption Spectra of Carbon Suboxide and Malononitrate in Solid Argon Matrices,”J. Chem. Phys.38 (4), 910 (1963).
6.
AndersenA. and SmithW. H., “Far-Infrared Spectra of Crystalline Acetylenes C2H2 and C2D2,”J. Chem. Phys.44 (11), 4216 (1966).
7.
AndersonA.GebbieH. A. and WalmsleyS. H., “Far Infrared Spectra of Molecular Crystals. I. Hydrogen and Deuterium Halides,”Mol. Phys.7, 401 (1964).
8.
AndersonA. and LeroiG. E., “Far-Infrared Spectra of Crystalline Nitrogen and Carbon Monoxide,”J. Chem. Phys.45 (11), 4359 (1966).
9.
AndersonG. R. and PersonW. B., “Infrared Studies of Crystal Benzene. V. Reflection Spectrum and Absolute Intensities,”J. Chem. Phys.36 (1), 62 (1962).
10.
AndreJ. C.LargeJ. F.DegliseX.LemaireJ.NiclauseM., and GroosN., “Infrared Spectrophotometric Investigation of the Liquid-Phase Photochemical Oxidation of Aldehydes,”Institut Francais du Petrole. Rev. Inst. Franc. Petrole Ann. Combust. Liquides23 (2), 219 (1968).
11.
AndrewsW. L. S. and PimentelG. C., “Infrared Spectrum, Structure and Bonding of Lithium Nitroxide, LiON,”J. Chem. Phys.44 (6), 2361 (1966).
12.
AndrewsW. L. S. and PimentelG. C., “Infrared Detection of Methyl Radical in Solid Argon,”J. Chem. Phys.44 (6), 2527 (1966).
13.
AndrewsW. L. S., “Infrared Detection of Trichloromethyl Radical in Solid Argon,”J. Phys. Chem.71 (8), 2761 (1967).
14.
AndrewsW. L. S., “Infrared Spectrum of Methyl Lithium Monomer in Solid Argon,”J. Chem. Phys.47 (11), 4834 (1967).
15.
AndrewsW. L. S., “Infrared Spectrum of the Trichloromethyl Radical in Solid Argon,”J. Chem. Phys.48 (3), 972 (1968).
16.
AndrewsW. L. S., “Infrared Spectrum of Dichlorocarbene in Solid Argon,”J. Chem. Phys.48 (3), 979 (1968).
17.
AndrewsW. L. S., “The Infrared Spectra of Dichlorocarbene and the Trichloromethyl Radical in Solid Argon,”Tetrahedron Letters1968 (12), 1423.
18.
ArkellA.ReinhardR. R., and LarsonL. P., “Matrix Infrared Studies of OF Compounds. I. The OF Radical,”J. Am. Chem. Soc.87, 1016 (1965).
19.
ArkellA., “Matrix Infrared Studies of OF Compounds. II. The O2F Radical,”J. Am. Chem. Soc.87, 4057 (1965).
20.
ArnoldG. M. and HeastieR., “Far-Infrared Absorption in Each Solid Phase of HCl and DBr,”Chem. Phys. Letters1 (2), 51 (1967).
21.
AtwoodM. R.Jean-LouisM., and VuH., “Aggregation in Hydrochloric and Hydrobromic Acid Solutions in Solid Ar at −196°C and the Infrared Absorption Spectra of Polymers and Copolymers of These Molecules,”J. Phys. (Paris)28 (1), 31 (1967).
22.
AustinI. G.ClayB. D.TurnerC. E., and Spring-ThorpeA. J., “Near and Far Infrared Absorption by Small Polarons in Semiconducting Nickelous Oxide and Cobaltous Oxide,”Solid State Commun.6 (1), 53 (1968).
23.
AveryW. H. and EllisC. F., “Infrared Spectra of Hydrocarbons I. Some Investigations of the Temperature Dependence of Absorption Bands,”J. Chem. Phys.10 (1), 10 (1942).
24.
AveryW. H. and MorrisonJ. R., “Infrared Spectra of Hydrocarbons II. Analysis of Octane Mixtures by the Use of Infrared Spectra Obtained at Low Temperatures,”J. Appl. Phys.18, 960 (1947).
25.
AxfordD. W. E. and RankD. H., “The Infrared Absorption Spectrum of n-Butane in the Solid State,”J. Chem. Phys.17 (4), 430 (1949).
26.
AxfordD. W. E. and RankD. H., “Spectroscopic Studies of Rotational Isomerism, V. The Infrared Absorption Spectra of Six Solid Hydrocarbons in the Region 1600–650 cm−1,”J. Chem. Phys.18 (1), 51 (1950).
27.
AynsleyE. E.DoddR. E., and LittleR., “Infrared Spectra of Some Volatile Inorganic Fluorides in the Solid State,”Spectrochim. Acta18, 1005 (1962).
28.
AzmanA.OcvirkA.HadziD.GiguereP. A., and SchneiderM., “Infrared Spectra of KE2F3 and the Structure of the H2F3− Ion,”Can. J. Chem.45 (12), 1347 (1967).
29.
BaglinF. G., “Low Temperature Investigation and Normal Coordinate Analysis of the Infrared Spectrum of Crystalline Hydrazine,”Diss. Abstr. B28 (1), 128 (1967).
30.
BaglinF. G.BushS. F., and DurigJ. R., “Far-Infrared Spectra and Space Group of Crystalline Hydrazine and Hydrazine-d4,”J. Chem. Phys.47 (6), 2104 (1967).
31.
BakerA. W.KerlingerH. O., and ShulginA. T., “Temperature Dependency of Phenol vOH Band Absorptivities. Applications to Enthalpy Calculations,”Spectrochim. Acta20, 1467 (1964).
32.
BakerG. and CharltonD. E., “Low Frequency Noise in Copper Doped Germanium Infrared Detectors Caused by Thermal Impedance Fluctuations,”Infrared Phys.8 (1), 15 (1968).
33.
BaldeschweilerJ. D. and PimentelG. C., “Light-Induced cis-trans Isomerization of Nitrous Acid Formed by Photolysis of Hydrazoic Acid and Oxygen in Solid Nitrogen,”J. Chem. Phys.33 (4), 1008 (1960).
34.
BallD. F.ButtlerM. J., and McKeanD. C., “Frequency Shifts from Gas to Crystal—II. Infrared Spectra of the Silyl Halides,”Spectrochim Acta21, 451 (1965).
35.
BallhausenC. J.DjurindkijB. F., and WatsonK. J., “The Polarized Absorption Spectra of Three Crystalline Polymorphs of VOSO4 · 5H2O,”J. Am. Chem. Soc.90 (13), 3305 (1968).
36.
BarkerA. S.Jr.VerleurH. W., and GuggenheimH. J., “Infrared Optical Properties of Vanadium Dioxide Above and Below the Transition Temperature,”Phys. Rev. Letters17 (26), 1286 (1966).
37.
BassC. D. and PimentelG. C., “Hydrogen Abstraction from Hydrocarbons by Methyl Radicals from the Photolysis of Methyl Iodide in Solid Nitrogen,”J. Am. Chem. Soc.83, 3754 (1961).
38.
BazhulinP. A. and RakhimovA. A., “Long-wavelength Infrared Absorption Spectrum of Naphthalene, Diphenyl, and p-Dichlorobenzene,”Fiz. Tverd. Tela8 (7), 2163 (1966).
39.
BazhulinP. A. and SmirnovV. N., “Investigation of the Temperature Dependence of the Intensity of Infrared Bands of Liquids,”Opt. Spectry., 6, 745 (1959).
40.
BeckC., “Infrared Absorption of Solid Ammonium Chloride and Ammonium Bromide,”J. Chem. Phys.12 (3), 71 (1944).
41.
BeckerE. D. and PimentelG. C., “Spectroscopic Studies of Reactive Molecules by the Matrix Isolation Method,”J. Chem. Phys.25 (2), 224 (1956).
42.
BeckerE. D.PimentelG. C., and Van ThielM., “Matrix Isolation Studies: Infrared Spectra of Intermediate Species in the Photolysis of Hydrazoic Acid,”J. Chem. Phys.26 (1), 145 (1957).
43.
Belopol'skayaT. V. and TrapeznikovaO. N., “Infrared Absorption Spectrum of the Polymer and Monomer of Methacrylic Acid,”Opt. Spektroskopiya20 (2), 246 (1966).
44.
BenedettiE.SbranaG., and BertiniV., “Infrared and Raman Spectra and Vibrational Assignment of 1,2,5-Thiadiazole,”Gazz. Chim. Ital.97 (3), 379 (1967).
45.
BenedettiE. and BertiniV., “Infrared and Raman Spectra of 1,2,5-Selenadiazole,”Spectrochim ActaA24 (1), 57 (1968).
46.
BenedictW. S.HermanR.MooreG. E., and SilvermanS., “The Strengths, Widths and Shapes of Infrared Lines. I. General Consideration,”Can. J. Phys.34, 830 (1956).
47.
BentleyF. F. and McDevittN. T., “Characteristic Group Frequencies of Bromo and Iodoalkanes in the Cesium Bromide Region,”Spectrochim. Acta20, 105 (1964).
48.
BernardM. P., “Infrared Adsorption Spectra of Seignette Salt Crystals at Low Temperatures,”C. R. Acad. Sci. (Paris)242, 1012 (1956).
49.
BernsteinH. J., “Internal Rotation. II. The Energy Difference Between the Rotational Isomers of 1,2-Dichloroethane,”J. Chem. Phys.17 (3), 258 (1949).
50.
BertieJ. E. and WhalleyE., “Infrared-Active Interchain Vibration in Polyethylene,”J. Chem. Phys.41 (2), 575 (1964).
51.
BethellD. E. and SheppardN., “The Infrared Spectrum of the H3O+ Ion in Acid Hydrates,”J. Chem. Phys.21 (8), 1421 (1953).
52.
BethellD. E. and SheppardN., “The Infrared Spectrum of Nitric Acid Monohydrate,”J. Chim. Phys.50, C72 (1953).
53.
BiondiM. A. and GuobadiaA. I., “Infrared Absorption of Aluminum, Copper, Lead, and Nickel at 4.2°K,”Phys. Rev.166 (3) 667 (1968).
54.
BlancJ.BrecherC., and HalfordR. S., “Motions of Molecules in Condensed Systems. XII. Infrared Spectrum and Structure of a Single Crystal of Allene,”J. Chem. Phys.36 (10), 2654 (1962).
55.
BlauE. J.HochheimerB. F., and UngerH. J., “Infrared Spectrum of Diimide,”J. Chem. Phys.34 (3), 1060 (1961).
56.
BonnerL. G. and HofstadterR. J., “Vibration Spectra and Molecular Structure. IV. The Infrared Absorption Spectra of the Double and Single Molecules of Formic Acid,”J. Chem. Phys.6 (9), 531 (1938).
57.
BordenA. and BarkerE. F., “The Infrared Absorption Spectrum of Methyl Alcohol,”J. Chem. Phys.6 (9), 553 (1938).
58.
BorelloE.ZecchinaA., and GuglielminottiE., “Infrared Spectra of 1,2,5-Oxadiazoles (Furazans)”, Gazz. Chim. Ital.95 (12), 1465 (1965).
59.
BosomworthD. R., “Far-Infrared Optical Properties of CaF2, SrF2, BaF2, and CdF2”, Phys. Rev.157 (3), 709 (1967).
60.
BottgerG. L. and GeddesA. L., “Infrared Lattice Vibrational Spectra of AgCl, AgBr, and AgI,”J. Chem. Phys.46 (8), 3000 (1967).
61.
BottgerG. L. and GeddesA. L., “Infrared Absorption Spectrum of Cadmium Telluride,”J. Chem. Phys.47 (11), 4858 (1967).
62.
BottgerG. L. and GeddesA. L., “The Far-Infrared Spectra of Some Silver Halide Complexes,”Spectrochim. Acta Pt.A23 (5), 1551 (1967).
63.
BoveyL. F. H. and SutherlandG. B. B. M., “Infrared Evidence for Free Rotation in the Solid State,”J. Chem. Phys.17 (9), 843 (1949).
64.
BoveyL. F. H., “The Infrared Absorption and Reflection Spectra of the Ammonium Halides,”J. Opt. Soc. Am.41, 836 (1951).
65.
BowersM. T. and FlygareW. H., “Vibration-Rotation Spectra of Monomeric HCl, DCl, HBr, DBr, and HI in the Rare-Gas Lattices and N2 Doping Experiments in the Rare-Gas Lattices,”J. Chem. Phys.44 (4), 1389 (1966).
66.
BowersM. T.KerleyG. I., and FlygareW. H., “Vibration-Rotation Spectra of Monomeric HCl in the Rare-Gas Lattices. II.,”J. Chem. Phys.45 (9), 3399 (1966).
67.
BoydD. R. J.ThompsonH. W., and WilliamsR. L., “Vibration-Rotation Bands of Methane,”Proc. Roy. Soc. (London)213A, 42 (1952).
68.
BraschJ. W. and JakobsenR. J., “The Use of a Polyethylene Matrix for Studying Dilution and Low-Temperature Effects in the Far-Infrared,”Spectrochim Acta20, 1644 (1964).
69.
BraschJ. W., “High-Pressure Effects on Organic Liquids. II. Infrared Spectra and P-V-T Relationships of Rotational Isomers of Some Halogenated Ethanes,”J. Chem. Phys.43 (10), 3473 (1965).
70.
BraschJ. W., “High-Pressure Effects on Organic Liquids. Production and Infrared Spectra of Single Crystals,”Spectrochim. Acta21, 1183 (1965).
71.
BreezeF. C.FerrisoC. C.LudwigC. R., and MalkmusW., “Temperature Dependence of the Total Integrated Intensity of Vibrational-Rotational Band Systems,”J. Chem. Phys.42 (1), 402 (1965).
72.
BrodskyM. H. and BursteinE., “Infrared Lattice Vibrations of Single-Crystal Lithium Hydride and Some of Its Isotopic Derivations,”J. Phys. Chem. Solids28 (9), 1655 (1967).
73.
BrownH. W. and PimentelG. C., “The Photolysis of Nitromethane and of Methyl Nitrate in an Argon Matrix; Infrared Detection of Nitroxyl, HNO,”J. Chem. Phys.29 (4), 883 (1958).
74.
BrownJ. K. and SheppardN., “Some Infrared Spectroscopic Studies of Rotational Isomerism,”Disc. Faraday Soc.9, 144 (1950).
75.
BrownJ. K.SheppardN., and SimpsonD. M., “The Interpretation of the Vibrational Spectra of the Normal Paraffins,”Disc. Faraday Soc.9, 261 (1950).
76.
BrownJ. K. and SheppardN., “Rotational Isomerism in 2-Methyl Butane and 2,3-Dimethyl Butane,”J. Chem. Phys.19 (7), 976 (1951).
77.
BrownJ. K. and SheppardN., “Infrared Spectroscopic Studies of Rotational Isomerism. I. Assignment of the Fundamental Frequencies of Some Ethylene Diahalides,”Trans. Faraday Soc.48, 128 (1952).
78.
BrownJ. K.SheppardN., and SimpsonD. M., “The Interpretation of the Infrared and Raman Spectra of the Normal Paraffins,”Phil. Trans.24A, 35 (1954).
79.
BrownJ. K. and SheppardN., “Infrared Spectroscopic Studies of Rotational Isomerism. II. n-Alkyl Bromides,”Trans. Faraday Soc.50, 535 (1954).
80.
BrownJ. K. and SheppardN., “Infrared Spectroscopic Studies of Rotational Isomerism. III. Propyl Halides,”Trans. Faraday Soc.50, 1164 (1954).
81.
BrownT. L., “Kinetic Interpretation of the Temperature Dependence of Infrared Absorption,”J. Chem. Phys.24 (6), 1281 (1956).
82.
BrueschP., “X-Ray and Infrared Studies of Bicyclo-(2.2.2)octane, Triethylenediamine, and Quinuclidine. I. X-Ray Studies of Bicyclo(2.2.2)octane, and Quinuclidine,”Spectrochim. Acta22 (5), 861 (1966).
83.
BrueschP. and GuenthardH. H., “X-Ray and Infrared Studies of Bicyclo(2.2.2)octane, Triethylenediamine, and Quinuclidine. III. Assignments of High- and Low-Temperature Infrared Spectra. Comparison with X-Ray Results,”Spectrochim. Acta22 (5), 877 (1966).
84.
BrunelL. C. and PeyronM., “Infrared Absorption of HCl Trapped in Solid Matrixes,”C. R. Acad. Sci. (Paris), Ser. C262 (17), 1297 (1966).
85.
BrunelL. C. and PeyronM., “Infrared Absorption Spectra and Structure HCl Crystal,”C. R. Acad. Sci. (Paris), Ser. C264 (10), 821 (1967).
86.
BrunelL. C. and PeyronM., “Infrared Absorption Spectrum and Structure of the Crystalline Phases of HBr,”C. R. Acad. Sci. (Paris), Ser. C264 (11), 930 (1967).
87.
BrunelL. C. and PeyronM., “Infrared Absorption Spectra of Solid HCl and HBr Up to 1.5°K,”J. Chim. Phys.63 (1), 181 (1966).
88.
BryantJ. I., “Infrared Spectroscopic Evidence of N3 (D3h),”Spectrochim. Acta22 (8), 1475 (1966).
89.
BuckinghamA. D., “Solvent Effects in Infra-Red Spectroscopy,”Proc. Roy. Soc. (London) A, 248, 169 (1958).
90.
BuckinghamA. D., “A Theory of Frequency, Intensity and Band-Width Changes Due to Solvents in Infra-Red Spectroscopy,”Proc. Roy. Soc (London) A, 255, 32 (1960).
91.
BulaninM. and OrlovaN., “On the Infrared Absorption Spectra of Hydrogen in Solutions,”Opt. Spectry.11, 298 (1961).
92.
BurerT. and GunthardH. H., “Infrared Spectra of Cyclanes and Cyclanones. Pt. 3. Spectra of Liquid and Solid Cyclanones,”Helv. Chim. Acta40, 2054 (1957).
93.
CabanaA.SavitskyG. B., and HornigD. F., “Vibration-Rotation Spectra of CH4 and CD4 Impurities in Xenon, Krypton, and Argon Crystals,”J. Chem. Phys.39 (11), 2942 (1963).
94.
CairnsB. R. and PimentelG. C., “Infrared Spectra of Solid α- and β-Oxygen,”J. Chem. Phys.43 (10), 3432 (1965).
95.
CalderazzoF. and L'EplattenierF., “The Pentacarbonyls of Ruthenium and Osmium. I. Infrared Spectra and Reactivity,”Inorg. Chem.6 (6), 1220 (1967).
96.
CarpenterG. B. and HalfordR. S., “Motions of Molecules in Condensed Systems. III. The Infrared Spectra for Cyclohexane Solid II, Solid I, Liquid, and Vapor in the Range From 3–15 Microns,”J. Chem. Phys.15 (2), 99 (1947).
97.
CashionJ. K., “Determination of Intermolecular-Potential Parameters from Induced Infrared Spectra: The Complex H2-Ar,”J. Chem. Phys.45 (5), 1656 (1966).
98.
CasselsJ. W. and WilksP. A.Jr., “The Application of ATR to Low Temperature Studies,” Seventh National Meeting, Society For Applied Spectroscopy Chicago, Ill., 13–17 May 1968.
99.
CatalanoE. and MilliganD. E., “Infrared Spectra of H2O, D2O, and HDO in Solid Argon, Krypton, and Xenon,”J. Chem. Phys.30 (1), 45 (1959).
100.
CatalanoE.SanbornR. H., and FrazerJ. W., “On the Infrared Spectrum of Hydrazine Matrix—Isolation Studies of the System NH2NH2: N2. I,”J. Chem. Phys.38 (9), 2265 (1963).
101.
CatalanoE. and SanbornR. H., “On the Infrared Spectrum of Hydrogen Peroxide Matrix—Isolation Studies of the System H2O2: N2. II,”J. Chem. Phys.38 (9), 2273 (1963).
102.
CharlesS. W. and LeeK. O., “Interpretation of the Matrix-Induced Shifts of Vibration and Band Frequencies,”Trans Faraday Soc.61, 2081 (1965).
103.
ChiltonG. T. J., “Dewar Vessel for the Infrared Spectroscopy of Solids at Low Temperatures,”Spectrochim. Acta16, 979 (1960).
104.
ChisholmD. A. and WelshH. L., “Induced Infrared Absorption in Hydrogen and Hydrogen-Foreign Gas Mixtures at Pressures up to 1500 Atmospheres,”Can. J. Phys.32, 291 (1954).
105.
ChristensenD. H.NielsenJ. T., and NielsenO. F., “Raman Spectrum and Infrared Crystal Spectrum of 1,3,4-Oxadiazole. Vibrational Assignment and Thermodynamic Functions of 1,3,4-Oxadiazole,”J. Mol. Spectry.25 (2), 197 (1968).
106.
Chu-ChengI. and BarrowG. M., “Trapping of Neutral Molecules in Ionic Matrices,”J. Chem. Phys.43 (4), 1430 (1965).
107.
ClaessonS. and WahbaM., “Changes in the Infrared Absorption of Cellulose Produced by Changes of Temperature and Moisture Content,”Svensk Papperstidn.71 (9), 366 (1968).
108.
ClarkO. M., “Temperature Dependence of the Infrared Spectra of Selected Dielectrics,”From U. S. Govt. Res. Develop. Rept.41 (7), 111 (1966).
109.
ClouterM. and GushG. P., “Change in the Crystal Structure of Solid Normal Hydrogen Near 1.5°K,”Phys. Rev. Letters15 (5), 200 (1965).
110.
CokerE. H. and HoferE. E., “Infrared Spectra of Borohydride Ions in Alkali Halide Single Crystals,”J. Chem. Phys.48 (6), 2713 (1968).
111.
ColpaJ. P. and KetelaarJ. A. A., “The Pressure-Induced Rotational Absorption Spectrum of Hydrogen: II,”Mol. Phys.1, 343 (1958).
112.
ComefordJ. H. and GouldJ. H., “Infrared Spectra of Solid Hydrocarbons at Very Low Temperatures,”J. Mol. Spectry.5, 477 (1960).
113.
ConnG. K. T.LeeE.SutherlandG. B. B. M., and WuC. K., “Investigations on the Vibration Spectra of Certain Condensed Gases at the Temperature of Liquid Nitrogen. I. Experimental Methods. A. Infrared Spectra,”Proc. Roy. Soc. (London)176A, 484 (1940).
114.
CookC. F.PersonW. B., and HallL. C., “Absolute Infrared Intensities of the Fundamental Absorption Bands in Solid CCl4,”Spectrochim. Acta, Pt.A 23 (5), 1425 (1967).
115.
CookE. S.KrekeC. W.BarnesE. B., and MotzelW., “Infrared and Ultraviolet Absorption Spectra of Proteins in the Solid State,”Nature174, 1144 (1954).
116.
CoteG. L. and ThompsonH. W., “Infrared Spectra and the Solid State. II. Potassium Bifluoride,”Proc. Roy. Soc. (London)210A, 206 (1951).
117.
CoteG. L. and ThompsonH. W., “Infrared Spectra and the Solid State. IV. Fluoborates,”Proc. Roy. Soc. (London)210A, 217 (1951).
118.
CraneA. and GushH. P., “The Induced Infrared Absorption Spectrum of Solid Deuterium and Solid Hydrogen Deuteride,”Can. J. Phys.44, 373 (1966).
119.
CrawfordM. F.WelshH. L. and LockeJ. L., “Infrared Absorption of Oxygen and Nitrogen Induced by Intermolecular Forces,”Phys. Rev.75, 1607 (1949).
120.
CrawfordM. F.WelshH. L.MacDonaldJ. C. F. and LockeJ. L., “Infrared Absorption of Hydrogen Induced by Foreign Gases,”Phys. Rev.80, 469 (1950).
121.
CrawfordM. F.WelshH. L., and HarroldJ. H., “Rotational Wings of Raman Bands and Free Rotation in Liquid Oxygen, Nitrogen and Methane,”Can. J. Phys.30, 81 (1952).
DavidJ. G. and PersonW. B., “Intensities of the Infrared-Active Lattice Vibrations of Halogen Crystals,”J. Chem. Phys.48 (1), 510 (1968).
124.
DavidsonG.WoodwardL. A.EbsworthE. A. V., and SheldrickG. M., “The Vibrational Spectra and Structure of Trisilylarsine and Trisilylstibine,”Spectrochim. Acta Pt. A, 23 (10), 2609 (1967).
125.
DaviesM., “Physical Aspects of the Hydrogen Bond,”Ann. Rept. Progr. Chem.43, 5 (1946).
126.
DeanG. D. and MartinD. H., “Inter-Molecular Vibrations of Crystalline Polyethylene and Long-Chain Paraffins,”Chem. Phys. Letters1, 415 (1967).
127.
DeitersR. M. and HolmesR. R., “Far-Infrared Spectrum of Phosphorus Pentafluoride,”J. Chem. Phys.48 (10), 4796 (1968).
128.
DeloupyC.BarceloJ., and VolatG., “Adaptation of an Infrared Spectrometer to Obtain Reflection Spectra at Low Temperatures,”J. Phys (Paris) Suppl.5–6, 49 (1966).
129.
DeMoreW. B., “Chemical Processes in Rigid Media at Low Temperatures,” Ph.D. Thesis (California Institute of Technology, Pasadena, Calif., 1958).
130.
DeMoreW. B. and DavidsonN., “Photochemical Experiments in Rigid Media at Low Temperatures. I. Nitrogen Oxides and Ozone,”J. Am. Chem. Soc.81, 5869 (1959).
131.
DeMoreW. B.PritchardH. O., and DavidsonN., “Photochemical Experiments in Rigid Media at Low Temperatures. II. The Reactions of Methylene, Cyclopentadienylene and Diphenylmethylene,”J. Am. Chem. Soc.81, 5874 (1959).
132.
DerouaultJ.ForelM. T.GuillermetJ.LascombeJ.Le CalveJ.NovakA.PerchardJ. P., and JosienM. L., “Infrared Spectra from 4000 to 600 cm−1 of Addition Compounds of Ethyl Ether with Some Lewis Acids: Di (ethyl ether)-Magnesium Bromide, ethyl ether-Zinc Chloride, and ethyl ether-Aluminum Halide,”Chim. Phys. Physiochim. Biol.65 (2), 287 (1968).
133.
DevonshireA. F., “The Rotation of Molecules in Fields of Octahedral Symmetry,”Proc. Roy. Soc (London)A 153, 601 (1936).
134.
DicksonP. F. and JonesM. C., “Infrared Spectral Reflectances of Metals at Low Temperatures,”Cryogenics8 (1), 24 (1968).
135.
DijkstraG., “The Influence of Temperature Variations on the Intensities of Absorption Bands in the infrared Spectra of Aliphatic Compounds,”Proc. 6th Int'l Conf. Spectry., p. 618 (1956).
136.
DowsD. A. and PimentelG. C., “Infrared Spectra of Gaseous and Solid Hydrazoic Acid and Deutero-Hydrazoic Acid: The Thermodynamic Properties of HN3”J. Chem. Phys.23 (7), 1258 (1955).
137.
DowsD. A.WhittleE., and PimentelG. G., “The Infrared Spectrum of Solid Ammonium Azide, A Vibrational Assignment,”J. Chem. Phys.23 (8), 1475 (1955).
138.
DowsD. A.PimentelG. C., and WhittleE., “Infrared Spectra of Intermediate Species in the Formation of Ammonium Azide from Hydrazoic Acid,”J. Chem. Phys.23 (9), 1606 (1955).
139.
DowsD. A., “Vibrational Spectra of the Crystalline Methyl Halides,”J. Chem. Phys.29 (3), 484 (1958).
140.
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141.
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