E.T.G. Lutz scite author profile

Fourier transform infrared analysis (FTIR) was used in combination with partial least squares regression (PLS) to predict the concentration of acetone in milk. FTIR spectra were compared with results of a gas-chromatographic head space method. Principal component analysis of whole spectra (3000 to 1000 cm(-1)) suggested to reduce the spectrum of analysis for acetone to 1450 to 1200 cm(-1). A second derivative was applied to the spectra to remove baseline effects and further enhance the spectral features. Full cross-validation was used to compare the reference with predicted acetone concentrations of samples not included in model development. PLS applied to the full spectral range resulted in a complex 19-factor model with a cross-validation error of 0.22 mM. After reducing the spectrum and taking the second derivative, we obtained a model with seven factors that yielded a cross-validation error of 0.21 mM. This compares favorably with a previously reported model with 20 factors and an error of 0.25 mM. Using PLS predictions to identify cows with subclinical ketosis resulted in 95 to 100% sensitivity and 96 to 100% specificity when the threshold for subclinical ketosis was 0.4 to 1.0 mM. The corresponding positive predictive values were > or = 76% and the negative predictive values > 98% throughout an assumed range of subclinical ketosis prevalence of 10 to 30%.

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Determination of the fat, protein and lactose content of milk using Fourier transform infrared spectrometry

Luinge

Hop

Lutz

et al. 1993

Analytica Chimica Acta

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Binding features of molecular clips derived from diphenylglycoluril

Sijbesma¹,

Kentgens²,

Lutz³

et al. 1993

J. Am. Chem. Soc.

113

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The structure and binding properties of a series of receptor molecules based on the building block diphenylglycoluril are described. These receptors bind dihydroxy-substituted aromatic guests in chloroform solution by means of hydrogen bonding and tt-tt stacking interactions. IR difference spectroscopy shows that the hydrogen bonds are formed between the OH groups of the guest molecule and the 7r-electrons of the urea carbonyl groups present in the receptor. The structure of the complexes was further investigated by comparing the complexation-induced shifts in the 'H N M R spectra with the calculated shifts for a number of geometries of the host-guest complexes. These data demonstrate that the guest molecules are clamped within the cavity of the receptor.

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Spectroscopic studies of dynamically compacted monoclinic ZrO2

Mączka

Lutz

Verbeek³

et al. 1999

Journal of Physics and Chemistry of Solids

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Structural information from OH stretching frequencies monohydric saturated alcohols

Maas

Lutz

1974

Spectrochimica Acta Part A: Molecular Spectroscopy

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Al&act-Infrareddata have been recorded of the hydroxyl stretching band for about 70 monohydrie saturated alcohols in dilute carbon tetrachloride solution. The wavenumber maximum, the half-bsndwidth and the band pattern could be related to the stru&ure of the molecules. Not only primary, secondary and tertiary alcohols cau be distinguished but also @-branched and cyolic ones. Four effects seem to be connected with the OH stretching band; viz. substitution and Gxation both lowering the frequency, and rotation and shielding both enhancing it. For identification purposes a table correlating structure, wavenumber and half-bandwidth is presented.

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E.T.G. Lutz

Determination of Acetone in Cow Milk by Fourier Transform Infrared Spectroscopy for the Detection of Subclinical Ketosis

Determination of the fat, protein and lactose content of milk using Fourier transform infrared spectrometry

Binding features of molecular clips derived from diphenylglycoluril

Spectroscopic studies of dynamically compacted monoclinic ZrO2

Structural information from OH stretching frequencies monohydric saturated alcohols

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