mcGFN-FF: an accurate force field for optimization and energetic screening of molecular crystals

Stefan Grimme, Thomas Rose
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Abstract

This work presents a periodic extension of the GFN-FF force field for molecular crystals named mcGFN-FF. Non-covalent interactions in the force field are adjusted to reduce the systematic overbinding of the original, molecular version for molecular crystals. A diverse set of molecular crystal benchmarks for lattice energies and unit cell volumes is studied. The modified force field shows good results with a mean absolute relative deviation (MARD) of 19.9 % for lattice energies and 10.0 % for unit cell volumes. In many cases, mcGFN-FF approaches the accuracy of the GFN1-xTB quantum chemistry method which has an MARD of 18.7 % for lattice energies and 6.2 % for unit cell volumes. Further, the newly compiled mcVOL22 benchmark set is presented which features r2SCAN-D4/900 eV DFT reference volumes for molecular crystals with phosphorus-, sulfur-, and chlorine-containing compounds of various sizes. Overall, the mcGFN-FF poses an efficient tool for the optimization and energetic screening of molecular crystals containing elements up to radon.
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mcGFN-FF:用于分子晶体优化和能量筛选的精确力场
本研究提出了一种用于分子晶体的 GFN-FF 力场的周期性扩展,命名为 mcGFN-FF。对力场中的非共价相互作用进行了调整,以减少分子晶体的原始分子版本的系统性过度结合。研究了一组不同的分子晶体晶格能和单胞体积基准。修改后的力场显示出良好的结果,晶格能量的平均绝对相对偏差(MARD)为 19.9%,单胞体积的平均绝对相对偏差(MARD)为 10.0%。在许多情况下,mcGFN-FF 接近 GFN1-xTB 量子化学方法的精度,后者的晶格能量平均绝对相对偏差为 18.7%,单胞体积平均绝对相对偏差为 6.2%。此外,还介绍了新编制的 mcVOL22 基准集,该基准集具有 r2SCAN-D4/900 eV DFT 参考体积,适用于各种尺寸的含磷、硫和氯化合物分子晶体。总之,mcGFN-FF 是对含氡元素的分子晶体进行优化和能量筛选的有效工具。
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