Physicochemical and Morphological Properties of Litchi Seed Starch Oxidized by Different Levels of Sodium Hypochlorite

Starch Pub Date : 2024-04-04 DOI:10.1002/star.202300119
Jashanveer Kaur, Prerna Gupta, Anjan Borah
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Abstract

Non‐conventional starch sources have emerged as an interest due to their inherent physicochemical properties similar to conventional starches. This study aimed to enhance the value of non‐conventional litchi seed starch by employing anoxidizing process using different concentrations of sodium hypochlorite (NaOCl)(0.5, 1.5, 2.5, 3.5, 4.5%). The carbonyl and carboxyl content of oxidized starch was in the range of (0.019 – 0.323%) and (0.044 – 0.425%) showing an increase with the increasing concentration of NaOCl. The native and oxidized starches were further characterized for their functional and structural properties. The amylose content of native starch was 21.52% which was reduced to (19.34 – 13.43%) upon oxidation. The water and oil absorption capacities increased with theoxidation level. The swelling power(g/g) and solubility (g/100g) for native starch were 16.17 and 16.20 and 9.5 and 31.40 for modified starch. The oxidized starch produced clearer pastes. Scanning electron microscopy revealed surface erosion and cavities in oxidized starch granulesat higher concentrations. The oxidized starch showed higher relative crystallinity. FTIR was further used to assess structural changes in starches. Therefore, it can be concluded that oxidation significantly altered the characteristics of litchi seed starch, expanding its potential applications in various industries.

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不同次氯酸钠氧化荔枝籽淀粉的物理化学和形态学特性
非常规淀粉来源因其固有的理化特性与传统淀粉相似而备受关注。本研究旨在通过使用不同浓度的次氯酸钠(NaOCl)(0.5%、1.5%、2.5%、3.5%、4.5%)进行氧化处理,提高非常规荔枝籽淀粉的价值。氧化淀粉的羰基和羧基含量范围分别为(0.019 - 0.323%)和(0.044 - 0.425%),随着 NaOCl 浓度的增加而增加。对原生淀粉和氧化淀粉的功能和结构特性进行了进一步表征。原生淀粉的直链淀粉含量为 21.52%,氧化后降至 (19.34 - 13.43%)。吸水和吸油能力随着氧化程度的增加而增加。原生淀粉的膨胀力(克/克)和溶解度(克/100 克)分别为 16.17 和 16.20,变性淀粉分别为 9.5 和 31.40。氧化淀粉产生的糊状物更清晰。扫描电子显微镜显示,在较高浓度的氧化淀粉颗粒中存在表面侵蚀和空洞。氧化淀粉的相对结晶度更高。傅立叶变换红外光谱被进一步用于评估淀粉的结构变化。因此,可以得出结论,氧化显著改变了荔枝籽淀粉的特性,扩大了其在各行业的潜在应用。
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