2021
DOI: 10.1016/j.ultsonch.2020.105383
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Impact of ultrasonic treatment on rice starch and grain functional properties: A review

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Cited by 100 publications
(48 citation statements)
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“…With the increase in ultrasound power, the starch content of KS first increased and then decreased, reaching a maximum when the ultrasound power was 300 W. In the early stages, with the increase in ultrasound power, the fluctuation of the sound field was enough to produce violent vibration and cavitation collapse to prompt the rapid swelling of the kiwifruit cell wall. Higher ultrasound power ensured a sufficient cavitation range, the overall mass transfer resistance was effectively reduced, and the extracted KS content increased [22] . However, when the power was too high, a large amount of hydroxyl radicals might be generated, leading to the chemical decomposition of starch [23] , resulting in the decrease in starch content.…”
Section: Resultsmentioning
confidence: 99%
“…With the increase in ultrasound power, the starch content of KS first increased and then decreased, reaching a maximum when the ultrasound power was 300 W. In the early stages, with the increase in ultrasound power, the fluctuation of the sound field was enough to produce violent vibration and cavitation collapse to prompt the rapid swelling of the kiwifruit cell wall. Higher ultrasound power ensured a sufficient cavitation range, the overall mass transfer resistance was effectively reduced, and the extracted KS content increased [22] . However, when the power was too high, a large amount of hydroxyl radicals might be generated, leading to the chemical decomposition of starch [23] , resulting in the decrease in starch content.…”
Section: Resultsmentioning
confidence: 99%
“…After ultrasound treatment, the G′ of KGUG was further enhanced, indicating that ultrasound had a favourable effect on gelation. This result might be due to the cavitation produced by ultrasound, which could activate more active groups in plasma protein and konjac glucomannan, facilitate intermolecular interactions, and promote gelation of protein and konjac glucomannan [40] .
Fig.
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Section: Resultsmentioning
confidence: 99%
“…Conversely, low-frequency ultrasound is used to bring changes in the physical and chemical properties of food ( Majid et al, 2015 ). Bonto et al (2021) recently summarized the use of ultrasound in increasing the nutritional components of rice. In cereal product processing, ultrasound technology is used to improve the stability of products and to extract bioactive compounds, including polyphenols.…”
Section: Innovative Processing Technologies To Increase the Phenolic Compounds In Cereal Branmentioning
confidence: 99%