Infrared Study of Alkyl Isothiocyanates in Carbon Tetrachloride and/or Chloroform Solutions

Abstract

The ν_asym.NCS frequencies for alkyl isothiocyanates occur at higher frequency in CHCl₃ or CDCl₃ solution than in CCl₄ solution. The ν_asym.NCS mode increases in frequency as the mole % CHCl₃/CCl₄ increases. The ν_asym.NCS mode for butyl isothiocyanate occurs at an exceptionally high frequency, and this result is explained in terms of the formation of a pseudo-six-membered intramolecularly hydrogen-bonded ring. The ν_asym.NCS modes for the alkyl isothiocyanates are corrected for Fermi resonance (FR), with the exception of the propyl analog. The propyl analog appears to have three other modes in FR with ν_asym.NCS, and an equation has not yet been developed to correct for FR in this case. The unperturbed ν_asym.NCS frequencies for alkyl isothiocyanates decrease in the alkyl order: methyl, butyl, ethyl, and tert-butyl. The decrease in frequency of ν_asym.NCS in the order methyl, ethyl, and tert-butyl isothiocyanate is attributed to weakening of the N=C=S bonds due to σ electron donation of each alkyl group. In the case of the butyl analog, the σ electron donation is partially compensated for by the postulated existence of a pseudo-six-membered hydrogen-bonded ring.