The Infrared Spectra of Nitriles and Related Compounds Frozen in Ar and H2O

Abstract

We present the 2320-2050 cm^-1 (4.31-4.88 μm) infrared spectra of 16 solid-state nitriles, isonitriles, and related compounds in order to facilitate the assignment of absorption features in a spectral region now becoming accessible to astronomers for the first time through the Infrared Space Observatory (ISO). This frequency range spans the positions of the strong C ≡ N stretching vibration of these compounds and is inaccessible from the ground due to absorption by CO₂ in the terrestrial atmosphere. Band positions, profiles, and intrinsic strengths (A values) were measured for compounds frozen in Ar and H₂O matrices at 12 K. The molecular species examined included acetonitrile, benzonitrile (phenylcyanide), 9-anthracenecarbonitrile, dimethylcyanamide, isopropylnitrile (isobutyronitrile), methylacrylonitrile, crotononitrile, acrylonitrile (vinyl cyanide), 3-aminocrotononitrile, pyruvonitrile, dicyandiamide, cyanamide, n-butylisocyanide, methylisocyanoacetate, diisopropylcarbodiimide, and hydrogen cyanide. The C ≡ N stretching bands of the majority of nitriles fall in the 2300-2200 cm^-1 (4.35-4.55 μm) range and have similar positions in both Ar and H₂O matrices, although the bands are generally considerably broader in the H₂O matrices. In contrast, the isonitriles and a few exceptional nitriles and related species produce bands at lower frequencies spanning the 2200-2080 cm^-1 (4.55-4.81 μm) range. These features also have similar positions in both Ar and H₂O matrices, and the bands are broader in the H₂O matrices. Three of the compounds (pyruvonitrile, dicyandiamide, and cyanamide) show unusually large shifts of their C ≡ N stretching frequencies when changing from Ar to H₂O matrices. We attribute these shifts to the formation of H₂O:nitrile complexes with these compounds. The implications of these results for the identification of the 2165 cm^-1 (4.62 μm) "XCN" interstellar feature and the 4550 cm^-1 (2.2 μm) feature of various objects in the solar system are discussed.