木质素
扩散
半纤维素
细胞壁
化学物理
化学
离子
次生细胞壁
纤维素
分子动力学
离子键合
化学工程
分析化学(期刊)
热力学
有机化学
计算化学
生物化学
物理
工程类
作者
Daipayan Sarkar,Lintao Bu,Joseph E. Jakes,Jacob K. Zieba,Isaiah D. Kaufman,Michael F. Crowley,Peter N. Ciesielski,Josh V. Vermaas
标识
DOI:10.1016/j.tcsw.2023.100105
摘要
) and water within a model for an intact plant cell wall at various hydration states (3-30 wt% water). From these simulations, we analyze the contacts between different plant cell wall components with each other and their interaction with the ions. Generally, diffusion increases with increasing hydration, with lignin and hemicellulose components increasing diffusion by an order of magnitude over the tested hydration range. Ion diffusion depends on charge. Positively charged cations preferentially interact with hemicellulose components, which include negatively charged carboxylates. As a result, positive ions diffuse more slowly than negatively charged ions. Measured diffusion coefficients are largely observed to best fit piecewise linear trends, with an inflection point between 10 and 15% hydration. These observations shed light onto the molecular mechanisms for diffusive processes within secondary plant cell walls at atomic resolution.
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