Győri Tibor, Olasz Balázs, Paragi Gábor, Czakó Gábor
Department of Physical Chemistry and Materials Science, Institute of Chemistry , University of Szeged , Rerrich Béla tér 1 , Szeged H-6720 , Hungary.
MTA-SZTE Biomimetic Systems Research Group , University of Szeged , Dóm tér 8 , Szeged H-6720 , Hungary.
J Phys Chem A. 2018 Apr 5;122(13):3353-3364. doi: 10.1021/acs.jpca.8b00770. Epub 2018 Mar 26.
Accuracy of the different levels of electronic structure theory is frequently studied for stationary-point properties; however, little is known about the effects of the electronic structure methods and basis sets on the dynamics of chemical reactions. Here we report such an investigation for the F + CHI S2 and proton-transfer reactions by developing 20 different analytical potential energy surfaces (PESs) obtained at the HF/DZ, HF/TZ, HF-D3(BJ)/DZ, HF-D3(BJ)/TZ, MP2/DZ, MP2/TZ, MP2-F12/DZ, MP2-F12/TZ, CCSD/DZ, CCSD-F12b/DZ, CCSD(T)/DZ, CCSD(T)-F12b/DZ, OQVCCD(T)/DZ, B97-1/TZ, PBE0/TZ, PBE0-D3(BJ)/TZ, M06-2X/TZ, M06-2X-D3(0)/TZ, B2PLYP/TZ, and B2PLYP-D3(BJ)/TZ levels of theory, where DZ and TZ denote the aug-cc-pVDZ and aug-cc-pVTZ basis sets with a relativistic effective core potential and the corresponding bases for iodine. Millions of quasiclassical trajectories on these PESs reveal that (a) in the case of standard methods, increasing the basis from DZ to TZ decreases the S2 cross sections by 20-30%; (b) the explicitly correlated F12 reactivity is converged with a DZ basis;
不同层次电子结构理论对于驻点性质的准确性经常得到研究;然而,关于电子结构方法和基组对化学反应动力学的影响却知之甚少。在此,我们通过开发在HF/DZ、HF/TZ、HF-D3(BJ)/DZ、HF-D3(BJ)/TZ、MP2/DZ、MP2/TZ、MP2-F12/DZ、MP2-F12/TZ、CCSD/DZ、CCSD-F12b/DZ、CCSD(T)/DZ、CCSD(T)-F12b/DZ、OQVCCD(T)/DZ、B97-1/TZ、PBE0/TZ、PBE0-D3(BJ)/TZ、M06-2X/TZ、M06-2X-D3(0)/TZ、B2PLYP/TZ和B2PLYP-D3(BJ)/TZ理论水平下获得的20种不同的解析势能面(PESs),报告了对F + CHI S2和质子转移反应的此类研究,其中DZ和TZ表示带有相对论有效核势的aug-cc-pVDZ和aug-cc-pVTZ基组以及碘的相应基组。在这些PESs上的数百万条准经典轨迹表明:(a)在标准方法的情况下,将基组从DZ增加到TZ会使S2截面降低20 - 30%;(b)显式相关的F12反应性在DZ基组下已收敛;
