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Precise Characterization of Selected Silica-based Materials from Grand Canonical Monte Carlo Simulations

机译：从大规范蒙特卡罗模拟中精确表征所选二氧化硅基材料

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We present results concerning the characterization of selected silica-based materials from a molecular modeling approach, together with some physical and mathematical tests to check the reliability of the obtained results. The experimental adsorption data is used in combination with Monte Carlo simulations and a regularization procedure in order to propose a reliable Pore Size Distribution (PSD). Individual adsorption isotherms are obtained by Monte Carlo simulations performed in the Grand Canonical ensemble. The methodology is applied to M41S materials, chosen due to their well defined pore geometry and pore size distribution, obtainable from alternative procedures. Our results are in excellent agreement with previous published results, demonstrating the reliability of this methodology for the characterization of other materials, with less well-defined structural properties.

机译：我们从分子建模方法中显示了所选二氧化硅基材料的表征，以及一些物理和数学测试，以检查所获得的结果的可靠性。实验吸附数据与Monte Carlo模拟和正则化程序组合使用，以提出可靠的孔径分布（PSD）。通过在大典型典型集合中进行的Monte Carlo模拟获得单个吸附等温。该方法应用于M41S材料，由于其定义的孔隙几何形状和孔径分布而选择，可从替代程序获得。我们的结果与先前公布的结果符合非常吻合，展示了这种方法的可靠性，用于表征其他材料，具有较少明确的结构性质。

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《International Materials Symposium 》|2006年||共5页
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C. Herdes; M. A. Santos; F. Medina; L. F. Vega;
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中图分类工程材料一般性问题 ;
关键词
M41S; Molecular simulations; Regularization procedure; Singular value decomposition; Pore size distribution;

机译：M41S;分子模拟;正规化程序;奇异值分解;孔径分布;

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Precise Characterization of Selected Silica-based Materials from Grand Canonical Monte Carlo Simulations

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