Studies of low-field nuclear magnetic resonance and Raman spectrometries for process analytical chemistry
(2001)
Thesis
McGill, C. A. (2001). Studies of low-field nuclear magnetic resonance and Raman spectrometries for process analytical chemistry. (Thesis). University of Strathclyde. Retrieved from http://researchrepository.napier.ac.uk/Output/2782207
All Outputs (4)
Quantitative Analysis of Low-Field NMR Signals in the Time Domain (2001)
Journal Article
Nordon, A., Gemperline, P. J., McGill, C. A., & Littlejohn, D. (2001). Quantitative Analysis of Low-Field NMR Signals in the Time Domain. Analytical Chemistry, 73(17), 4286-4294. https://doi.org/10.1021/ac0102866Two novel methods are described for direct quantitative analysis of NMR free induction decay (FID) signals. The methods use adaptations of the generalized rank annihilation method (GRAM) and the direct exponential curve resolution algorithm (DECRA).... Read More about Quantitative Analysis of Low-Field NMR Signals in the Time Domain.
At-line process analysis by low-field medium-resolution NMR spectrometry (2001)
Journal Article
Nordon, A., McGill, C., & Littlejohn, D. (2001). At-line process analysis by low-field medium-resolution NMR spectrometry. Spectroscopy Europe, 13(3), 10-13Low-field NMR spectrometry offers attractive options in at-line analysis. As shown via examples concerning benzene production, high acid concentrations, ethoxy chain length, and esterification reactions, the instrument is robust, compact and has few... Read More about At-line process analysis by low-field medium-resolution NMR spectrometry.
Process NMR spectrometry (2001)
Journal Article
Nordon, A., McGill, C. A., & Littlejohn, D. (2001). Process NMR spectrometry. Analyst, 126(2), 260-272. https://doi.org/10.1039/b009293m