Non-covalent interactions index

The Non-Covalent Interactions index, commonly referred to as simply Non-Covalent Interactions (NCI) is a visualization index based in the Electron density (ρ) and the reduced density gradient (s). It is based on the empirical observation that Non-covalent interactions can be associated with the regions of small reduced density gradient at low electronic densities. In quantum chemistry, the non-covalent interactions index is used to visualize non-covalent interactions in three-dimensional space.^[1]

Its visual representation arises from the isosurfaces of the reduced density gradient colored by a scale of strength. The strength is usually estimated through the product of the electron density and the second eigenvalue (λTemplate:Sub) of the Hessian of the electron density in each point of the isosurface, with the attractive or repulsive character being determined by the sign of λTemplate:Sub. This allows for a direct representation and characterization of non-covalent interactions in three-dimensional space, including hydrogen bonds and steric clashes.^[2][3] Being based on the electron density and derived scalar fields, NCI indexes are invariant with respect to the transformation of molecular orbitals. Furthermore, the electron density of a system can be calculated both by X-ray diffraction experiments and theoretical wavefunction calculations.^[4]

The reduced density gradient (s) is a scalar field of the electron density (ρ) that can be defined as

${\displaystyle s(𝐫)=\frac{|\mathrm{\nabla }\rho (𝐫)|}{2(3{\pi }^2{)}^{1/3}\rho (𝐫{)}^{4/3}}}$

Within the Density Functional Theory framework the reduced density gradient arises in the definition of the Generalized Gradient Approximation of the exchange functional.^[5] The original definition is

${\displaystyle s(𝐫)=\frac{|\mathrm{\nabla }\rho (𝐫)|}{2k_F\rho (𝐫)}}$

in which kTemplate:Sub is the Fermi momentum of the free electron gas.^[6]

The NCI was developed by Canadian computational chemist Erin Johnson while she was a postdoctoral fellow at Duke University in the group of Weitao Yang.

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