Dorien Dries scite author profile

Native maize starch was gradually converted into granular cold-water swelling starch (GCWSS) by aqueous ethanol treatments at elevated temperatures. At a treatment temperature of 95°C, decreasing ethanol concentrations from 68 to 48% (v/v) led to decreased post-treatment gelatinization enthalpies in excess water, reflecting remaining original A-type crystals. Concomitantly to native A-type crystal melting, VH-type crystals appeared. At an ethanol concentration of 48%, a granular cold-water swelling maize starch was successfully produced. All crystals in its intact granules were of the VH-type and appeared birefringent when studied in ethanol under polarized light. Removal of all residual solvent by high temperature drying did not influence swelling power, proving that a high temperature drying step is not necessary to induce cold-water swelling capacity. Based on in situ calorimetric measurements, the thermal requirements to produce GCWSS from different ethanol:water mixtures were elucidated. This work is the first to demonstrate that the amylose fraction contributes almost exclusively to VH-type crystal formation in GCWSS.

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V-type crystal formation in starch by aqueous ethanol treatment: The effect of amylose degree of polymerization

Dries

Gomand

Delcour

et al. 2016

Food Hydrocolloids

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Development of an infusion method for encapsulating ascorbyl palmitate in V-type granular cold-water swelling starch

Dries

Gomand

Pycarelle

et al. 2017

Carbohydrate Polymers

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Encapsulation of the antioxidant ascorbyl palmitate in V-type granular cold-water swelling starch affects the properties of both

Dries

Knaepen

Goderis

et al. 2017

Carbohydrate Polymers

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Reassessment of the generic features of starch gelatinization: An advanced SAXS study on maize and potato starch

et al. 2022

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Dorien Dries

Structural and thermal transitions during the conversion from native to granular cold-water swelling maize starch

V-type crystal formation in starch by aqueous ethanol treatment: The effect of amylose degree of polymerization

Development of an infusion method for encapsulating ascorbyl palmitate in V-type granular cold-water swelling starch

Encapsulation of the antioxidant ascorbyl palmitate in V-type granular cold-water swelling starch affects the properties of both

Reassessment of the generic features of starch gelatinization: An advanced SAXS study on maize and potato starch

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