Relativistic Density Functional NMR Tensors Analyzed with Spin-free Localized Molecular Orbitals

Alberto Fernández-Alarcón; Jochen Autschbach

doi:10.1002/cphc.202200667

Relativistic Density Functional NMR Tensors Analyzed with Spin-free Localized Molecular Orbitals

Alberto Fernández-Alarcón
, Jochen Autschbach

Chemistry

University at Buffalo

SUNY Buffalo

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

The implementation of fast relativistic methods based on density functional theory, in conjunction with localized molecular orbital (LMO) based analysis, allows straightforward interpretations of NMR parameters in terms of contributions from core shells, lone pairs, and bonds, for compounds containing elements from across the periodic table. We present a conceptual review of a frequently used LMO analysis of NMR parameters calculated in the presence of spin-orbit interactions and other relativistic effects. An accompanying example focuses on the ¹⁵N shielding in a heavy metal complex.

Original language	English
Article number	e202200667
Journal	ChemPhysChem
Volume	24
Issue number	1
DOIs	https://doi.org/10.1002/cphc.202200667
State	Published - Jan 3 2023

Keywords

NMR parameters
ab initio calculations
density functional theory
localized orbitals
spin-orbit coupling

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10.1002/cphc.202200667

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abstract = "The implementation of fast relativistic methods based on density functional theory, in conjunction with localized molecular orbital (LMO) based analysis, allows straightforward interpretations of NMR parameters in terms of contributions from core shells, lone pairs, and bonds, for compounds containing elements from across the periodic table. We present a conceptual review of a frequently used LMO analysis of NMR parameters calculated in the presence of spin-orbit interactions and other relativistic effects. An accompanying example focuses on the 15N shielding in a heavy metal complex.",

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N2 - The implementation of fast relativistic methods based on density functional theory, in conjunction with localized molecular orbital (LMO) based analysis, allows straightforward interpretations of NMR parameters in terms of contributions from core shells, lone pairs, and bonds, for compounds containing elements from across the periodic table. We present a conceptual review of a frequently used LMO analysis of NMR parameters calculated in the presence of spin-orbit interactions and other relativistic effects. An accompanying example focuses on the 15N shielding in a heavy metal complex.

AB - The implementation of fast relativistic methods based on density functional theory, in conjunction with localized molecular orbital (LMO) based analysis, allows straightforward interpretations of NMR parameters in terms of contributions from core shells, lone pairs, and bonds, for compounds containing elements from across the periodic table. We present a conceptual review of a frequently used LMO analysis of NMR parameters calculated in the presence of spin-orbit interactions and other relativistic effects. An accompanying example focuses on the 15N shielding in a heavy metal complex.

KW - NMR parameters

KW - ab initio calculations

KW - density functional theory

KW - localized orbitals

KW - spin-orbit coupling

UR - https://www.scopus.com/pages/publications/85142119000

U2 - 10.1002/cphc.202200667

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ER -

Relativistic Density Functional NMR Tensors Analyzed with Spin-free Localized Molecular Orbitals

Abstract

Keywords

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