AI Article Synopsis
- A study in J. Phys. Chem. A explores the use of Pauli energy to identify strong covalent interactions (SCI) with bond orders of two or more, highlighting distinctive isosurface shapes for different bond types.
- The shapes for double, triple, and quadruple bonds are likened to a dumbbell, donut, and four-beats respectively, confirming findings through further analysis of systems with higher bond orders.
- The research emphasizes that bond strength and bond order can diverge, particularly in transition metals, indicating that shorter bond lengths do not always equate to higher bond orders and asserting the reliability of the SCI index as a descriptor for multiple covalent bond orders.
Article Abstract
Very recently [J. Phys. Chem. A 2018, 122 (11), 3087-3095], we proposed to employ the Pauli energy to identify and determine strong covalent interactions (SCI), whose bond order are equal to or larger than two. This is done through the signature isosurface shape between the two bonding atoms. We discovered that the signature shape for a double, triple, and quadruple covalent bond is like a dumbbell, donut (torus), and four-beats, respectively. Systems with even higher bond orders were examined and confirmed. This work is a follow-up study of our previous work. The dependence of the signature isosurface shape on the choice of methodologies and basis sets is systematically investigated. Its effectiveness and robustness in determining bond orders are highlighted again with more examples. In addition, using the molybdenum dimer in different environments, e.g., in vacuum, sandwiched between molecules, and encapsulated in the C cage, as illustrative examples, we show that, generally speaking, bond strength and bond order are two different chemical concepts. For systems containing transition metals, it is not always true that a short metal-metal bond length corresponds to a larger bond order. Put together, these results should provide additional pieces of convincing evidence showing that the SCI index is a robust and reliable density-based descriptor to accurately determine multiple covalent bond orders.
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| http://dx.doi.org/10.1007/s00894-018-3721-9 | DOI Listing |
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