物理预处理对酸性水解纳米晶体结构和性能的影响

V. Z. Pinto, Camila Costa Pinto, Sérgio Michielon de Souza, Khalid Moomand, B. Biduski, Gustavo Henrique Fidelis dos Santos, Alvaro Renato Guerra Dias
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引用次数: 0

摘要

淀粉纳米晶体(SNC)是由酸水解产生的具有结晶结构的不溶性小板块。热湿处理(HMT)、退火(ANN)和超声处理(SNT)等预处理方法可用于改善 SNC 的性能。他们研究了这些预处理对 SNC 结构和性能的影响,包括水解动力学和产量、分子结构、红外光谱、结晶度 (Xc) 和热稳定性。根据 k 值,原生淀粉和预处理淀粉的水解遵循两相一阶模型,初始阶段较快,第二阶段较慢。与以前的报告相比,SNC 产量至少提高了 180%。HMT SNC 产量为 42.3%,而原生 SNC 产量为 35.2%。结构分析表明,SNC 显示出一种 Xc 增加的 A 型结构。然而,长时间的酸水解(7 天)会将长分子链分解成较短的葡萄糖分子链,从而降低 Xc,减少 SNC 产量。水解 5 天后,预处理 SNC 的熔融温度(Tp)升高。预处理过的木薯豆淀粉在水解 5 天后显示出生产 SNC 的优势,产量和 Xc 都很高。事实证明,HMT 和 SNT 能有效提高水解产量和热稳定性,而 ANN 能稍微加快 SNC 的生产。他们的研究结果为优化预处理以提高 SNC 性能和扩大其应用范围提供了宝贵的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Physical Pretreatment on Common Bean Starch at Acid Hydrolyzed Nanocrystals Structure and Properties

Physical Pretreatment on Common Bean Starch at Acid Hydrolyzed Nanocrystals Structure and Properties
Starch nanocrystals (SNC) are insoluble platelets with crystalline structures produced by acid hydrolysis. Pretreatments, including heat–moisture treatment (HMT), annealing (ANN), and sonication (SNT) can be used to improve SNC properties. They investigate the impact of these pretreatments on SNC structure and properties, including hydrolysis kinetics and yield, molecular structure, infrared spectroscopy, crystallinity (Xc), and thermal stability. Hydrolysis of native and pretreated starches followed a two‐phase first‐order model with an initial rapid stage and a slower second stage based on the k‐values. SNC yield is improved by at least 180% than previously reported. HMT SNC yield is 42.3% while native SNC is 35.2%. Structural analysis reveals that SNC displayed an A‐type structure with increased Xc. However, prolonged acid hydrolysis (7 days) reduces Xc by breaking long molecular chains into shorter glucose ones, reducing SNC yield. Melting temperatures (Tp) of pretreated SNC increase after 5 days of hydrolysis. Pretreated carioca bean starch shows advantages for SNC production after 5 days of hydrolysis, reaching good yield and Xc. HMT and SNT prove effective in improving hydrolysis yield and thermal stability, while ANN slightly accelerates SNC production. Their findings provide valuable insights into optimizing pretreatments for enhancing SNC properties and expanding their applications.
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