2022
DOI: 10.1111/1541-4337.13029
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The use of time domain 1H NMR to study proton dynamics in starch‐rich foods: A review

Abstract: Starch is a major contributor to the carbohydrate portion of our diet. When it is present with water, it undergoes several transformations during heating and/or cooling making it an essential structure-forming component in starch-rich food systems (e.g., bread and cake). Time domain proton nuclear magnetic resonance (TD 1 H NMR) is a useful technique to study starch-water interactions by evaluation of molecular mobility and water distribution. The data obtained correspond to changes in starch structure and the… Show more

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Cited by 16 publications
(8 citation statements)
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References 234 publications
(612 reference statements)
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“…Moving from 56% to 73% water, the mobility of Pop EF increased with increasing water content. Interestingly, for water contents ≥82%, a new separation of Pop EF occurred, allowing the distinction of Pop E and Pop F. According to Ruan et al (1999) , when all water-binding sites in the flour are saturated, further addition of water forms new, more mobile water layers with increasing distance to water molecules bound to the flour solids ( Ruan et al, 1999 ; Riley et al, 2022 ). Pop F would then show a progressive increase given the increase in water content, becoming the main population at water contents of 82 and 91%.…”
Section: Resultsmentioning
confidence: 99%
“…Moving from 56% to 73% water, the mobility of Pop EF increased with increasing water content. Interestingly, for water contents ≥82%, a new separation of Pop EF occurred, allowing the distinction of Pop E and Pop F. According to Ruan et al (1999) , when all water-binding sites in the flour are saturated, further addition of water forms new, more mobile water layers with increasing distance to water molecules bound to the flour solids ( Ruan et al, 1999 ; Riley et al, 2022 ). Pop F would then show a progressive increase given the increase in water content, becoming the main population at water contents of 82 and 91%.…”
Section: Resultsmentioning
confidence: 99%
“…Time domain 1 H NMR can evaluate the molecular mobility and water distribution in the starch-water systems [143]. This method can be applied to elucidate the molecular dynamics of starch transitions during gelatinization in dough/batter systems during heating/cooling and used in the quality control of starchy food products.…”
Section: Raman and Nmr Spectroscopiesmentioning
confidence: 99%
“…NMR is utilized in food surveillance and quality control and several articles have highlighted the potential of this technique before [11][12][13][14]. Additionally, 2 H NMR spectroscopysite-specific natural isotope fractionation (SNIF) as another NMR technique-has been proven to be an effective tool in wine analytics, regarding geographical origin, since the 1990s [15].…”
Section: Introductionmentioning
confidence: 99%