Measurements of urea and glucose in aqueous solutions with dual-beam near-infrared Fourier transform spectroscopy
(2002) In Applied Spectroscopy 56(12). p.1593-1599- Abstract
- This study investigates the use of a dual-beam, optical null, FT-IR spectrometer to measure trace organic components in aqueous solutions in the combination band region 5000-4000 cm(-1). The spectrometer may be used for both single- and dual-beam measurements, thereby facilitating comparison of these two modes of operation. The concentrations of aqueous solutions of urea and glucose in the ranges 0-40 mg/dL and 0-250 mg/dL, respectively, were determined by principal component regression using both modes. The dual-beam technique eliminated instrumental variations present in the single-beam measurements that must be taken into account when quantifying trace components from single-beam spectra. The data obtained with the dual-beam technique... (More)
- This study investigates the use of a dual-beam, optical null, FT-IR spectrometer to measure trace organic components in aqueous solutions in the combination band region 5000-4000 cm(-1). The spectrometer may be used for both single- and dual-beam measurements, thereby facilitating comparison of these two modes of operation. The concentrations of aqueous solutions of urea and glucose in the ranges 0-40 mg/dL and 0-250 mg/dL, respectively, were determined by principal component regression using both modes. The dual-beam technique eliminated instrumental variations present in the single-beam measurements that must be taken into account when quantifying trace components from single-beam spectra. The data obtained with the dual-beam technique resulted in more stable calibration models based on principal component regression. These calibration models need fewer factors and yield lower prediction errors than those based on traditional single-beam data. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/321141
- author
- Snoer Jensen, Peter LU and Bak, Jimmy
- organization
- publishing date
- 2002
- type
- Contribution to journal
- publication status
- published
- subject
- keywords
- optical null, dual-beam, near-infrared, FT-IR, glucose, urea, aqueous solutions, optical subtraction
- in
- Applied Spectroscopy
- volume
- 56
- issue
- 12
- pages
- 1593 - 1599
- publisher
- Society for Applied Spectroscopy
- external identifiers
-
- wos:000180011700014
- scopus:0036969172
- ISSN
- 1943-3530
- DOI
- 10.1366/000370202321115869
- language
- English
- LU publication?
- yes
- id
- f2f751d0-42f0-4a2a-8fc6-3e0d437bb6c2 (old id 321141)
- date added to LUP
- 2016-04-01 11:53:36
- date last changed
- 2022-01-26 19:48:18
@article{f2f751d0-42f0-4a2a-8fc6-3e0d437bb6c2, abstract = {{This study investigates the use of a dual-beam, optical null, FT-IR spectrometer to measure trace organic components in aqueous solutions in the combination band region 5000-4000 cm(-1). The spectrometer may be used for both single- and dual-beam measurements, thereby facilitating comparison of these two modes of operation. The concentrations of aqueous solutions of urea and glucose in the ranges 0-40 mg/dL and 0-250 mg/dL, respectively, were determined by principal component regression using both modes. The dual-beam technique eliminated instrumental variations present in the single-beam measurements that must be taken into account when quantifying trace components from single-beam spectra. The data obtained with the dual-beam technique resulted in more stable calibration models based on principal component regression. These calibration models need fewer factors and yield lower prediction errors than those based on traditional single-beam data.}}, author = {{Snoer Jensen, Peter and Bak, Jimmy}}, issn = {{1943-3530}}, keywords = {{optical null; dual-beam; near-infrared; FT-IR; glucose; urea; aqueous solutions; optical subtraction}}, language = {{eng}}, number = {{12}}, pages = {{1593--1599}}, publisher = {{Society for Applied Spectroscopy}}, series = {{Applied Spectroscopy}}, title = {{Measurements of urea and glucose in aqueous solutions with dual-beam near-infrared Fourier transform spectroscopy}}, url = {{https://lup.lub.lu.se/search/files/2690410/2372492.pdf}}, doi = {{10.1366/000370202321115869}}, volume = {{56}}, year = {{2002}}, }