AI Article Synopsis
- The study utilized generalized two-dimensional correlation spectroscopy and Fourier transform infrared analysis to improve the identification of hydrocarbon isomers in mixed gases.
- The Fourier transform infrared spectra for n-butane and iso-butane showed overlapping absorption peaks, making it difficult to distinguish between the two when mixed.
- The two-dimensional correlation spectroscopy effectively differentiated iso-butane and n-butane by revealing their unique absorption peak intensities, indicating that this method can enhance resolution in quantitative analysis of infrared spectra.
Article Abstract
The generalized two-dimensional correlation spectroscopy and Fourier transform infrared were used to identify hydrocarbon isomers in the mixed gases for absorption spectra resolution enhancement. The Fourier transform infrared spectrum of n-butane and iso-butane and the two-dimensional correlation infrared spectrum of concentration perturbation were used for analysis as an example. The all band and the main absorption peak wavelengths of Fourier transform infrared spectrum for single component gas showed that the spectra are similar, and if they were mixed together, absorption peaks overlap and peak is difficult to identify. The synchronous and asynchronous spectrum of two-dimensional correlation spectrum can clearly identify the iso-butane and normal butane and their respective characteristic absorption peak intensity. Iso-butane has strong absorption characteristics spectrum lines at 2,893, 2,954 and 2,893 cm(-1), and n-butane at 2,895 and 2,965 cm(-1). The analysis result in this paper preliminary verified that the two-dimensional infrared correlation spectroscopy can be used for resolution enhancement in Fourier transform infrared spectrum quantitative analysis.
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