Comment on "Systematic Investigation of the Sorption Properties of Polyurethane Foams for Organic Vapors" Metadata
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- Main Title Comment on "Systematic Investigation of the Sorption Properties of Polyurethane Foams for Organic Vapors"
Author: Sprunger, Laura M.Creator Type: PersonalCreator Info: University of North Texas
Author: Acree, William E. (William Eugene)Creator Type: PersonalCreator Info: University of North Texas
Author: Abraham, M. H. (Michael H.)Creator Type: PersonalCreator Info: University College London
Name: American Chemical SocietyPlace of Publication: [Washington, D.C.]
- Creation: 2007-08-04
- Content Description: This article gives a comment to a previous article entitled "Systematic investigation of the sorption properties of polyurethane foams for organic vapors."
- Physical Description: 3 p.
- Keyword: sorption properties
- Keyword: polyurethane foams
- Keyword: organic vapors
- Journal: Analytical Chemistry, 2007, Washington D.C.: American Chemical Society, pp. 6891-6893
- Publication Title: Analytical Chemistry
- Volume: 79
- Issue: 17
- Page Start: 6891
- Page End: 6893
- Peer Reviewed: True
Name: UNT Scholarly WorksCode: UNTSW
Name: UNT College of Arts and SciencesCode: UNTCAS
- Rights Access: public
- DOI: 10.1021/ac071384f
- Archival Resource Key: ark:/67531/metadc172346
- Academic Department: Chemistry
- Display Note: Reprinted with permission from the Analytical Chemistry journal. Copyright 2007 American Chemical Society.
- Display Note: Abstract: A method was devised for combining experimental partition coefficients measured at different temperatures into a single regression correlation. The proposed method described the 265 experimental air-to-polyurethane ether adsorption coefficients reported by Kamprad and Goss (Kamprad, I.; Goss, K.-U. Anal. Chem. 2007, 79, 4222−4227) to within a standard deviation of 0.084 log units, which is comparable in descriptive ability to the four temperature-specific correlations determined from a regression analysis of the experimental data at each of the temperatures studied.