ascorbic-acid and octanoic-acid

ascorbic-acid has been researched along with octanoic-acid* in 2 studies

Other Studies

2 other study(ies) available for ascorbic-acid and octanoic-acid

Article	Year
Physicochemical Characterization of Yellow Cake Prepared with Structured Lipid Oleogels. Journal of food science, 2019, Volume: 84, Issue:6 Oleogels were produced using a phytosterol blend of β-sitosterol/γ-oryzanol or a blend of sucrose stearate/ascorbyl palmitate (SSAP) as oleogelators. Four lipid phases were compared in oleogel formation for each oleogelator blend: menhaden oil, structured lipid (SL) of menhaden oil and 30 mol% caprylic acid (SL-C), SL of menhaden oil and 20 mol% stearic acid (SL-S), and SL of menhaden oil and 14 mol% each of caprylic and stearic acid (SL-CS). All SLs were produced enzymatically using a recombinant lipase from Candida antarctica as the biocatalyst. Menhaden oil, SL, phytosterol, or SSAP oleogels were evaluated as alternatives to shortening in the preparation of yellow cake in terms of batter and cake physicochemical properties. The shortening, phytosterol, and SSAP oleogel batters exhibited statistically similar specific gravities (0.85). The shortening, and menhaden oil phytosterol and SSAP oleogel batters, exhibited similar Power-Law values (n: 0.78, k: 31 Pa s Topics: Ascorbic Acid; Caprylates; Fat Substitutes; Fatty Acids; Fish Oils; Food Analysis; Food Handling; Gels; Organic Chemicals; Phenylpropionates; Phytosterols; Sitosterols; Stearic Acids; Sucrose	2019
Suppressive effect of saturated acyl L-ascorbate on the oxidation of linoleic acid encapsulated with maltodextrin or gum arabic by spray-drying. Journal of agricultural and food chemistry, 2002, Jul-03, Volume: 50, Issue:14 6-O-Palmitoyl L-ascorbate was added to linoleic acid at various molar ratios of the ascorbate to the acid, the mixtures were emulsified with a maltodextrin or gum arabic solution, and the emulsions were spray-dried to produce microcapsules. At higher molar ratios, the oil droplets in the emulsions were smaller, and the oxidative stabilities of the encapsulated linoleic acid were higher for both the maltodextrin- and gum arabic-based microcapsules. 6-O-Capryloyl, caproyl, and lauroyl L-ascorbates, which were synthesized through lipase-catalyzed condensation in acetone, were also used for the microencapsulation of linoleic acid. Except for capryloyl L-ascorbate, the addition of a saturated acyl ascorbate, especially caproyl ascorbate, to linoleic acid was effective for preparing oil droplets of small particle diameter and for suppressing the oxidation of the encapsulated linoleic acid. Topics: Acylation; Antioxidants; Ascorbic Acid; Caprylates; Capsules; Decanoic Acids; Drug Stability; Emulsions; Gum Arabic; Lauric Acids; Linoleic Acid; Oxidation-Reduction; Polysaccharides; Solubility; Time Factors	2002

Article

Year

Physicochemical Characterization of Yellow Cake Prepared with Structured Lipid Oleogels.

Journal of food science, 2019, Volume: 84, Issue:6

Oleogels were produced using a phytosterol blend of β-sitosterol/γ-oryzanol or a blend of sucrose stearate/ascorbyl palmitate (SSAP) as oleogelators. Four lipid phases were compared in oleogel formation for each oleogelator blend: menhaden oil, structured lipid (SL) of menhaden oil and 30 mol% caprylic acid (SL-C), SL of menhaden oil and 20 mol% stearic acid (SL-S), and SL of menhaden oil and 14 mol% each of caprylic and stearic acid (SL-CS). All SLs were produced enzymatically using a recombinant lipase from Candida antarctica as the biocatalyst. Menhaden oil, SL, phytosterol, or SSAP oleogels were evaluated as alternatives to shortening in the preparation of yellow cake in terms of batter and cake physicochemical properties. The shortening, phytosterol, and SSAP oleogel batters exhibited statistically similar specific gravities (0.85). The shortening, and menhaden oil phytosterol and SSAP oleogel batters, exhibited similar Power-Law values (n: 0.78, k: 31 Pa s

Topics: Ascorbic Acid; Caprylates; Fat Substitutes; Fatty Acids; Fish Oils; Food Analysis; Food Handling; Gels; Organic Chemicals; Phenylpropionates; Phytosterols; Sitosterols; Stearic Acids; Sucrose

2019

Suppressive effect of saturated acyl L-ascorbate on the oxidation of linoleic acid encapsulated with maltodextrin or gum arabic by spray-drying.

Journal of agricultural and food chemistry, 2002, Jul-03, Volume: 50, Issue:14

6-O-Palmitoyl L-ascorbate was added to linoleic acid at various molar ratios of the ascorbate to the acid, the mixtures were emulsified with a maltodextrin or gum arabic solution, and the emulsions were spray-dried to produce microcapsules. At higher molar ratios, the oil droplets in the emulsions were smaller, and the oxidative stabilities of the encapsulated linoleic acid were higher for both the maltodextrin- and gum arabic-based microcapsules. 6-O-Capryloyl, caproyl, and lauroyl L-ascorbates, which were synthesized through lipase-catalyzed condensation in acetone, were also used for the microencapsulation of linoleic acid. Except for capryloyl L-ascorbate, the addition of a saturated acyl ascorbate, especially caproyl ascorbate, to linoleic acid was effective for preparing oil droplets of small particle diameter and for suppressing the oxidation of the encapsulated linoleic acid.

Topics: Acylation; Antioxidants; Ascorbic Acid; Caprylates; Capsules; Decanoic Acids; Drug Stability; Emulsions; Gum Arabic; Lauric Acids; Linoleic Acid; Oxidation-Reduction; Polysaccharides; Solubility; Time Factors

2002