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首页> 外文期刊>The Journal of Chemical Physics >SUM-OVER-STATES DENSITY FUNCTIONAL PERTURBATION THEORY - PREDICTION OF RELIABLE C-13, N-15, AND O-17 NUCLEAR MAGNETIC RESONANCE CHEMICAL SHIFTS
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SUM-OVER-STATES DENSITY FUNCTIONAL PERTURBATION THEORY - PREDICTION OF RELIABLE C-13, N-15, AND O-17 NUCLEAR MAGNETIC RESONANCE CHEMICAL SHIFTS

机译:总和-状态密度函数扰动理论-可靠的C-13,N-15和O-17核磁共振化学位移的预测

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摘要

Sum-over-states density functional perturbation theory (SOS-DFPT) has been used to calculate C-13, N-15, and O-17 NMR chemical shifts of 20 molecules, for which accurate experimental gas-phase values are available. Compared to Hartree-Fock (HF), SOS-DFPT leads to improved chemical shift values and approaches the degree of accuracy obtained with second order Moller-Plesset perturbation theory (MP2). This is particularly true in the case of N-15 chemical shifts where SOS-DFPT performs even better than MP2. Additional improvements of SOS-DFPT chemical shifts can be obtained by empirically correcting diamagnetic and paramagnetic contributions to compensate for deficiencies which are typical of DFT. (C) 1996 American Institute of Physics. [References: 63]
机译:总和状态密度泛函扰动理论(SOS-DFPT)已用于计算20个分子的C-13,N-15和O-17 NMR化学位移,为此可获得准确的实验气相值。与Hartree-Fock(HF)相比,SOS-DFPT可以改善化学位移值,并接近使用二阶Moller-Plesset微扰理论(MP2)获得的准确度。在N-15化学位移的情况下尤其如此,其中SOS-DFPT的性能甚至优于MP2。 SOS-DFPT化学位移的其他改进可以通过经验校正反磁性和顺磁性的贡献来弥补DFT的典型缺陷。 (C)1996年美国物理研究所。 [参考:63]

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