Dingting Zhou , Xiaojiang Wang , Gaoji Yang , Xuan Luo , Hosahalli S. Ramaswamy , Rui Li , Shaojin Wang
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引用次数: 0
摘要
通过射频(RF)处理可以改善淀粉分子的结构修饰/折叠。这就需要通过快速加热和双极/离子分子振动效应更好地了解其作用机制。将原生玉米淀粉(NS)在氯化钠溶液中进行射频加热至五个目标温度,并评估其对结构改性的影响。结果表明,射频加热淀粉的电导率、粒度分布和 zeta 电位随温度升高而增加。射频能量对其他骨架模式的振动强度有明显影响。淀粉中没有形成新的化学键/基团,尽管钠离子/氯离子的作用增加了离子的振动强度,双极旋转运动导致无序和/或有序结构发生变化。根据 X 射线衍射、傅立叶变换红外线、拉曼和 RVA 观察结果,在 70 °C 下进行射频处理的淀粉具有最高的链间氢键能量(10.4 kJ)、结晶度(36.6 %)和低谷粘度(2480 cp),但具有最低的结晶尺寸(13.7 nm)、480 cm-1 处峰值的半最大全宽(14.4)、击穿粘度(534 cp)和后退粘度(784 cp)。
Influence of the induced Na+/Cl− ionic polarization effects on multi-scale structures of maize starch during radio frequency heating
Structural modification/unfolding of starch molecules can be improved by radio frequency (RF) treatment. This necessitates a better understanding of its action mechanism through rapid heating and dipolar/ionic molecular vibration effects. Native maize starch (NS) was subjected to RF heating in a NaCl solution to five target temperatures, and its effect on structural modifications was evaluated. Results showed that the conductivity, particle size distribution and zeta potential of RF heated starch increased with increasing temperature. RF energy had a significant effect on the vibration intensity of other skeleton modes. No new chemical bonds/groups were formed in the starch even though there was the effect of sodium/chloride ions with the added vibration intensity of the ions and the dipolar rotation movements resulted in changes in the disordered and/or ordered structures. The RF treatment at 70 °C had the highest energy (10.4 kJ) of inter-strand hydrogen bond, crystallinity (36.6 %) and trough viscosity (2480 cp), but had the lowest crystallite dimension (13.7 nm), full width at half maximum (14.4) of peak at 480 cm−1, and breakdown (534 cp) and setback (784 cp) viscosities based on X-ray diffraction, Fourier transform infrared, and Raman and rapid viscos analyzer observations.
期刊介绍:
The International Journal of Biological Macromolecules is a well-established international journal dedicated to research on the chemical and biological aspects of natural macromolecules. Focusing on proteins, macromolecular carbohydrates, glycoproteins, proteoglycans, lignins, biological poly-acids, and nucleic acids, the journal presents the latest findings in molecular structure, properties, biological activities, interactions, modifications, and functional properties. Papers must offer new and novel insights, encompassing related model systems, structural conformational studies, theoretical developments, and analytical techniques. Each paper is required to primarily focus on at least one named biological macromolecule, reflected in the title, abstract, and text.