利用简单超声法从木薯淀粉、玉米淀粉和山药淀粉中提取淀粉微球和纳米颗粒。

Simple ultrasound method to obtain starch micro- and nanoparticles from cassava, corn and yam starches.

机构信息

Department of Biochemistry and Biotechnology, CCE, State University of Londrina, PO BOX 6001, 86051-990 Londrina, PR, Brazil.

出版信息

Food Chem. 2019 Jun 15;283:11-18. doi: 10.1016/j.foodchem.2019.01.015. Epub 2019 Jan 12.

DOI:10.1016/j.foodchem.2019.01.015

PMID:30722849

Abstract

Starch nanoparticles (SNP) were produced employing a simple ultrasound method without chemical additives from cassava, corn, and yam starches, which contain 18%, 25% and 30% amylose, respectively. Simultaneously, starch microparticles (SMP) were also obtained, which were significantly smaller than the native starch granules. The yield of the process for all starch sources was 12 ± 1% SNP and 88 ± 5% SMP, starting with aqueous starch suspensions at 10% and 30 min of sonication. Yam starch (higher amylose content) resulted in smaller SMP (1-3 μm) and SNP (8-32 nm) than did those obtained from corn (SMP = 3-6 μm; SNP = 36-68 nm) and cassava (SMP = 3-7 μm; SNP = 35-65 nm) starches. Nanoparticles from all starch sources had lower crystallinity and lower thermal stability than did the native starches or SMP. Ultrasonication was efficient to yield SNP and SMP without the addition of any chemical reagent or employing a purification step.

摘要

淀粉纳米颗粒（SNP）是通过一种简单的超声方法制备的，无需添加任何化学添加剂，原料为木薯淀粉、玉米淀粉和山药淀粉，其直链淀粉含量分别为 18%、25%和 30%。同时，还得到了淀粉微球（SMP），其粒径明显小于天然淀粉颗粒。对于所有淀粉来源，起始于 10%的水相淀粉悬浮液，超声处理 30min，该方法的产率为 12±1%的 SNP 和 88±5%的 SMP。山药淀粉（直链淀粉含量较高）得到的 SMP（1-3μm）和 SNP（8-32nm）比玉米淀粉（SMP=3-6μm；SNP=36-68nm）和木薯淀粉（SMP=3-7μm；SNP=35-65nm）得到的更小。与天然淀粉或 SMP 相比，所有淀粉来源的纳米颗粒结晶度较低，热稳定性较低。超声处理无需添加任何化学试剂或采用纯化步骤，即可有效地制备 SNP 和 SMP。

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利用简单超声法从木薯淀粉、玉米淀粉和山药淀粉中提取淀粉微球和纳米颗粒。

Simple ultrasound method to obtain starch micro- and nanoparticles from cassava, corn and yam starches.

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