硬脂酸在小蜡烛蜡-花生油油凝胶中的晶体习性调节剂作用

IF 2.8 Q2 ENGINEERING, CHEMICAL ChemEngineering Pub Date : 2023-10-12 DOI:10.3390/chemengineering7050096
Diksha Chaturvedi, Deepti Bharti, Somali Dhal, Deblu Sahu, Haladhar Behera, Minaketan Sahoo, Doman Kim, Maciej Jarzębski, Arfat Anis, Biswaranjan Mohanty, Sai S. Sagiri, Kunal Pal
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引用次数: 0

摘要

本研究探讨了将硬脂酸(SAC)掺入candelilla wax (CW)和花生油(GO)油凝胶中作为加工食品中饱和脂肪的替代品的潜在健康益处。结果表明,通过偏振光显微镜和XRD分析,SAC对油凝胶具有晶体习惯改变的特性,使其平均晶粒尺寸增大。此外,由于d-间距的减小,SAC引起了晶体网络内部有序度的增加。有趣的是,即使在SAC的较高分数下,油凝胶的坚固性仍未受到影响。这被认为是由于高熔点SAC在CW-GO油凝胶的细晶网络内结晶造成的干扰。然而,添加3mg的SAC显著增加了油凝胶(SAC3)的剪切功,从而降低了涂油性能。通过比色分析,SAC3呈现出密集均匀的突出亮晶分布,无定形区极少,白度指数较高。SAC3在油凝胶中也表现出最高的致密性和位错密度,可能是由于形成了突出的晶体。然而,SAC对整体油凝胶结晶速率没有影响。SAC3通过延长连续波晶体的结晶时间,延缓了二次结晶和热平衡。在对照分娩研究中,添加SAC可改善CPCR。另一方面,CPCR随SAC用量的增加而降低,其中SAC3在油凝胶中表现出适度的姜黄素释放能力。
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Role of Stearic Acid as the Crystal Habit Modifier in Candelilla Wax-Groundnut Oil Oleogels
This study investigated the effects of incorporating stearic acid (SAC) in candelilla wax (CW) and groundnut oil (GO) oleogel with potential health benefits as an alternative to saturated fats in processed foods. Results showed that SAC possesses crystal habit-modifying properties on the oleogels, causing its average crystallite size to increase, as observed through polarized light microscopy and XRD analysis. Additionally, SAC caused an increase in ordering within the crystallite network as a result of the decrease in d-spacing. Interestingly, the firmness of the oleogels remained unaffected, even at a higher fraction of SAC. It is believed to be due to the interference caused by the crystallization of high-melting SAC within the fine crystal network of CW-GO oleogel. However, adding 3 mg of SAC significantly increased the work of the shear of the oleogel (SAC3), which decreased the spreadability. As observed through colorimetric analysis, SAC3 showed a dense and uniform distribution of prominent bright crystals with minimal amorphous regions, leading to a high whiteness index. SAC3 also demonstrated the highest compactness and dislocation density among the oleogels, likely due to the formation of prominent crystals. However, SAC did not affect the overall oleogel crystallization rate. SAC3 had delayed secondary crystallization and thermal equilibrium by having a prolonged crystallization time of CW crystals. In the case of controlled delivery studies, the addition of SAC improved CPCR. On the other hand, CPCR decreased with the increase in SAC amount, where SAC3 showed a moderate curcumin release ability among the oleogels.
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来源期刊
ChemEngineering
ChemEngineering Engineering-Engineering (all)
CiteScore
4.00
自引率
4.00%
发文量
88
审稿时长
11 weeks
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