QCM-D揭示疏水力和静电力对Acacia胶在氧化物表面吸附的影响

IF 2.5 Q3 CHEMISTRY, PHYSICAL
A. Davantès, M. Nigen, Christian Sanchez, D. Renard
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引用次数: 0

摘要

采用耗散监测石英晶体微天平(QCM-D)研究了两种植物分泌物(A.senegal和A.seyal)在氧化物表面固液界面对Acacia胶的吸附。通过不同的表面、疏水性和电荷性质,以及通过改变离子强度或pH,研究了疏水力和静电力对吸附容量的影响。结果表明,疏水力比静电力对Acacia树胶在氧化物表面吸附的影响更大。与亲水性表面相比,Acacia树胶在疏水性表面上的吸附能力更高,并且在带负电的表面上表现出更高的稳定性。Acacia树胶在吸附过程的第一部分的结构构型和电荷是重要的参数。Acacia树胶表现出非凡的能力,通过重排、构象变化和/或脱水过程来适应表面性质,从而在固体表面达到最稳定的状态。QCM-D数据的流变学分析表明,A.senegal层在亲水表面上表现出粘性行为,而在疏水性更强的表面上则表现出粘弹性行为。相反,根据Voigt模型,A.seyal层在所有表面上都表现出弹性行为,或者当考虑幂律模型时,在疏水表面上表现出粘性行为。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Impact of Hydrophobic and Electrostatic Forces on the Adsorption of Acacia Gum on Oxide Surfaces Revealed by QCM-D
The adsorption of Acacia gum from two plant exudates, A. senegal and A. seyal, at the solid-liquid interface on oxide surfaces was studied using a quartz crystal microbalance with dissipation monitoring (QCM-D). The impact of the hydrophobic and electrostatic forces on the adsorption capacity was investigated by different surface, hydrophobicity, and charge properties, and by varying the ionic strength or the pH. The results highlight that hydrophobic forces have higher impacts than electrostatic forces on the Acacia gum adsorption on the oxide surface. The Acacia gum adsorption capacity is higher on hydrophobic surfaces compared to hydrophilic ones and presents a higher stability with negatively charged surfaces. The structural configuration and charge of Acacia gum in the first part of the adsorption process are important parameters. Acacia gum displays an extraordinary ability to adapt to surface properties through rearrangements, conformational changes, and/or dehydration processes in order to reach the steadiest state on the solid surface. Rheological analysis from QCM-D data shows that the A. senegal layers present a viscous behavior on the hydrophilic surface and a viscoelastic behavior on more hydrophobic ones. On the contrary, A. seyal layers show elastic behavior on all surfaces according to the Voigt model or a viscous behavior on the hydrophobic surface when considering the power-law model.
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来源期刊
Colloids and Interfaces
Colloids and Interfaces CHEMISTRY, PHYSICAL-
CiteScore
3.90
自引率
4.20%
发文量
64
审稿时长
10 weeks
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