Kazuhisa Yokomizo scite author profile

High-resolution nuclear magnetic resonance (NMR) spectroscopy provides useful data for analyzing fatty acid compositions of edible vegetable oils. Quantitation of each fatty acid was carried out by evaluation of particular peaks. According to the 1 H NMR method, terminal methyl protons, divinyl protons, and allyl protons are useful to calculate linolenic acid, linoleic acid, and oleic acid, respectively. The ω-2 carbon, divinyl carbon, and allylic carbons were used for calculation of these acids by the 13 C NMR method. Compositional results obtained by NMR coincided well with those of the conventional gas chromatography (GC) method. Results from 13 C NMR were in better agreement with those from GC than were the results obtained by the 1 H NMR method.

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Rapid determination of iodine value by ¹H nuclear magnetic resonance spectroscopy

Miyake

Yokomizo

Matsuzaki

1998

J Americ Oil Chem Soc

104

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High-resolution 1 H nuclear magnetic resonance ( 1 H NMR) has been found to be an effective tool for the direct, rapid, and automated determination of the iodine value (IV) of vegetable oils, including hydrogenated oils (IV = 45.9-140.2). The total time required to obtain the 1 H NMR data is about 3 min per sample. The IV is calculated from the number of double-bonded protons and the average molecular weight derived directly from the spectrum. The average of olefinic protons and allylic plus divinyl protons area was used to calculate the absolute number of double-bonded protons. The 1 H NMR results were compared with those obtained by the traditional Wijs-cyclohexane methods. The correlation coefficient between traditional IV and the novel 1 H NMR method was r 2 = 0.9994 for the regression equation Y = 0.9885X + 2.8084, where X was the result given by the traditional method. With the proposed regression equation, IV calculated by the 1 H NMR method was within an error of ±1 unit of the result obtained by the traditional method. The proposed method is practically viable if one can afford to have the NMR system. JAOCS 75, 15-19 (1998).

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Determination of unsaturated fatty acid composition by high‐resolution nuclear magnetic resonance spectroscopy

Miyake

Yokomizo

Matsuzaki

1998

J Americ Oil Chem Soc

104

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Demulsification of oil‐in‐water emulsion under freezing conditions: Effect of crystal structure modifier

Harada

Yokomizo

2000

J Americ Oil Chem Soc

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The demulsification of oil-in-water (O/W) emulsions under freezing conditions is connected to fat crystallization in the oil droplet. Therefore, demulsification can be prevented by the use of oil with a low melting point, and also by lowering the O/W ratio. However, an oil with a low melting point, such as sunflower, is rather expensive, and the O/W ratio has a significant effect on the texture of emulsions. We searched for an oil that is suitable for the production of a freeze-stable emulsion and found that soybean oil has unique characteristics. Normally, emulsions are more unstable at lower temperatures; soybean oil emulsion is unstable at −10°C and stable at −20°C. This unique characteristic results from the following two reasons. First, the solid fat content of soybean oil is almost the same at −10 and −20°C. Second, small crystals form a larger network over a period of time, and the higher temperature promotes faster restructuring. This structure formation was microscopically observed with the use of a thermostated stage. Structure formation was suppressed with the addition of a crystal structure modifier, polyglycerol fatty acid full ester, which also suppressed coalescence.

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