Startseite Quantitative Determination of Tetraacetylethylenediamine in Laundry Powder by FTIR Spectrometry Using Partial Least Squares Algorithm
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Quantitative Determination of Tetraacetylethylenediamine in Laundry Powder by FTIR Spectrometry Using Partial Least Squares Algorithm

  • M. Khanmohammadi , M. Shanehsaz , A. Bagheri Garmarudi und K. Kargosha
Veröffentlicht/Copyright: 2. April 2013
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Tenside Surfactants Detergents
Aus der Zeitschrift Tenside Surfactants Detergents Band 45 Heft 3

Abstract

Attenuated total reflectance Fourier transform infrared spectrometry was applied for determination of tetraacetylethylenediamine (TAED) in commercial laundry powder samples. Investigating different spectral regions, 1724–1670 cm−1 was selected as the best region. Spectroscopic data were compared with gas chromatography results, demonstrating reliability of the proposed method, higher accuracy and precision. Standard error of estimation (SEE), standard error of prediction (SEP), correlation coefficient (R2) and root mean square error of prediction (RMSEP) was 0.022, 0.031, 0.998 and 0.138 in the selected spectral region, respectively.

Kurzfassung

Die abgeschwächte Totalreflexion wurde in Verbindung mit der Fourier-Transform-Infrarotspektrometrie zur Bestimmung von Tetraacetylethylendiamin (TAED) in kommerziellen Waschmittelproben angewendet. Von den untersuchten Spektralbereichen wurde der Bereich 1724–1670 cm−1 als günstigster ausgewählt. Die spektroskopischen Messwerte wurden mit denen der Gaschromatographie verglichen, um die Reliabilität der vorgeschlagenen Methode mit höherer Genauigkeit und Präzision zu demonstrieren. Der Standardschätzfehler (SEE), der Standardvorhersagefehler (SEP), der Korrelationskoeffizient (R2) und die Wurzel der mittleren quadratischen Abweichung der Vorhersage (RMSEP) betrug 0,022, 0,031, 0,998 und 0,138 im jeweiligen ausgewählten Spektralbereich.

Key words:: Tetraacetylethylenediamine; FTIR spectrometry; partial least squares; determination; detergent
Stichwörter:: Tetraacetylethylendiamin; FTIR-Spektrometrie; Partial Least Squares; Bestimmung; Waschmittel
Mohammadreza Khanmohammadi, Chemistry Department, Faculty of Science, IKIU, P. O. Box: 288, Qazvin, Iran, Tel.-Fax: +982813780040. E-Mail:

Dr. Mohammadreza Khanmohammadi (PhD) is an associate professor of analytical chemistry at Chemistry Department, IKIU, Qazvin, Iran. In parallel he holds the head position of the R & D department at TOLYPERS detergent manufacturing Co., Qazvin, Iran. Surfactant-Detergent analysis and synthesis of novel Surfactant-Detergent raw materials are his main research interests in this filed; in addition with high technology spectroscopy-chemometrics based researches. He is also a member of managing council of ALBORZ-BALK Co., producer of a wide range of chemicals. He has been selected as the best researcher during the last decade for several times. He is also in collaboration with department of analytical chemistry, University of Valencia, Spain and University of Delhi, India. He is a member of American Chemical Society.

Maryam Shanehsaz (MSc), has been graduated in analytical chemistry in Dr Khanmohammadi's research team, IKIU, Qazvin, Iran. Her thesis was in field of (Application of FTIR spectrometry in detergent industry). She is now a researcher at Iran Petroleum Research Institute.

Amir Bagheri Garmarudi has been graduated in analytical chemistry during 2007 and is going to start the PhD program in Dr Khanmohammadi's research team. He is also researcher and technical administrator in Department of Chemistry & Polymer Laboratories, Engineering Research Institute (ERI), Tehran, Iran.

Dr. Kazem Kargosha (PhD), is an academic member of Chemistry & Chemical Engineering Institute of Iran. He is associate professor of analytical chemistry. He has published several scientific papers in ISI indexed journals in addition with analytical chemistry books. He is a member of managing council of Iranian Chemical Society. He has been the supervisor or advisor of several MSc and PhD thesis.

References

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Received: 2008-01-02
Published Online: 2013-04-02
Published in Print: 2008-05-01

© 2008, Carl Hanser Publisher, Munich

Artikel in diesem Heft

  1. Contents/Inhalt
  2. Contents
  3. Abstracts
  4. Abstracts
  5. Detergent Ingredient
  6. Quantitative Determination of Tetraacetylethylenediamine in Laundry Powder by FTIR Spectrometry Using Partial Least Squares Algorithm
  7. Physical Chemistry
  8. Conductivity Measurements as a Method for Studying Ionic Technical Grade Surfactants
  9. Electrocatalytic Hydrogenation and Hydrogenolysis of Aromatic Halides by Raney Nickel in the Presence of Different Surfactants
  10. Phase Separation Study of a Surface-Active Drug, Promazine Hydrochloride, in Presence of Surfactants and Ureas
  11. Surface Activity of Newly Nonionic Surfactants at Air/Water Interface and their Interaction with Clay and Teflon
  12. Review Article
  13. 50 Years of Environmental Monitoring at Henkel
https://doi.org/10.3139/113.100367
Schlagwörter für diesen Artikel
Tetraacetylethylenediamine; FTIR spectrometry; partial least squares; determination; detergent

Artikel in diesem Heft

  1. Contents/Inhalt
  2. Contents
  3. Abstracts
  4. Abstracts
  5. Detergent Ingredient
  6. Quantitative Determination of Tetraacetylethylenediamine in Laundry Powder by FTIR Spectrometry Using Partial Least Squares Algorithm
  7. Physical Chemistry
  8. Conductivity Measurements as a Method for Studying Ionic Technical Grade Surfactants
  9. Electrocatalytic Hydrogenation and Hydrogenolysis of Aromatic Halides by Raney Nickel in the Presence of Different Surfactants
  10. Phase Separation Study of a Surface-Active Drug, Promazine Hydrochloride, in Presence of Surfactants and Ureas
  11. Surface Activity of Newly Nonionic Surfactants at Air/Water Interface and their Interaction with Clay and Teflon
  12. Review Article
  13. 50 Years of Environmental Monitoring at Henkel
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