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当前等值面没有那么绿,明显有一定程度的蓝色(被左边氧原子挡住了不少),如果是普通范德华作用,蓝不到这种程度 当前能量分解说明轨道相互作用不可忽视,如果感兴趣可以按照化学键方式考察,比如用Multiwfn算Mayer键级、NAdO(http://sobereva.com/535)、ETS-NOCV(http://sobereva.com/609)等 |
sobereva 发表于 2024-4-16 00:35 不好意思,老师。这个是sobeda结果 Total interaction energy: -6.74 kcal/mol Physical components of interaction energy derived by sobEDA: Electrostatic (E_els): -5.63 kcal/mol Exchange (E_x): -6.02 kcal/mol Pauli repulsion (E_rep): 25.12 kcal/mol Exchange-repulsion (E_xrep = E_x + E_rep): 19.10 kcal/mol Orbital (E_orb): -11.34 kcal/mol DFT correlation (E_DFTc): -5.13 kcal/mol Dispersion correction (E_dc): -3.74 kcal/mol Coulomb correlation (E_c = E_DFTc + E_dc): -8.88 kcal/mol Variant of sobEDA for weak interaction (sobEDAw): Note: 62.83% DFT correlation is combined with dispersion correction to yield a SAPT-like dispersion term Electrostatic (E_els): -5.63 kcal/mol Exchange-repulsion (including scaled DFT correlation): 17.19 kcal/mol Orbital (E_orb): -11.34 kcal/mol Dispersion (E_disp): -6.97 kcal/mol |
| 怎么连sobEDA的结果也不给 |
| 我猜,IGMH是弱相互作用在空间中的“分布”。色散吸引可以分布在比较大的区域里,但是整体的强度(作用能)不是很大,而轨道作用强度大但是在空间里比较集中,对应IGMH的点比较少。 |
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