Role of Glucose in Enhancing Stability of Aqueous Silica Gels Against Dehydration

IF 2.781
Gérald Lelong, R. Heyd, G. Charalambopoulou, T. Steriotis, A. Brandt, K. Beck, M. Vayer, D. Price, J. Brady, M. Saboungi
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引用次数: 6

Abstract

The microstructure evolution of confined glucose solutions in silica gels can provide insights into the effect of sugars in protecting living organisms under extreme dehydration conditions. Aqueous silica gels with relatively small pore sizes capable of deforming under changes in environmental conditions are used here as a model system. In situ monitoring of the dehydration process – with and without the presence of sugar molecules – by optical photography, gravimetric measurements, small-angle neutron scattering, and atomic force microscopy reveals that sugar plays a crucial role in the mechanics and protection of the gel. In the absence of sugar, dehydration leads to considerable degradation, whereas the incorporation of large doses of glucose maintains the stability and robustness of the structure. A model is proposed to explain the time dependence of the dehydration process.
葡萄糖在提高水相硅胶抗脱水稳定性中的作用
在硅胶中限制葡萄糖溶液的微观结构演变可以为糖在极端脱水条件下保护生物体的作用提供见解。本文采用孔径相对较小的水相硅胶作为模型体系,其在环境条件的变化下会发生变形。通过光学摄影、重力测量、小角度中子散射和原子力显微镜对脱水过程进行的现场监测表明,糖在凝胶的力学和保护中起着至关重要的作用。在没有糖的情况下,脱水会导致相当大的降解,而加入大剂量的葡萄糖则会保持结构的稳定性和坚固性。提出了一个模型来解释脱水过程的时间依赖性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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