The title of this post paraphrases E. J. Corey’s article in 1997 (DOI: 10.1016/S0040-4039(96)02248-4) which probed the origins of conformation restriction in aldehydes. The proposal was of (then) unusual hydrogen bonding between the O=C-H…F-B groups. Here I explore whether the NCI (non-covalent-interaction) method can be used to cast light on this famous example of how unusual interactions might mediate selectivity in organic reactions.
Crystal structure of RUGYEX. Click for 3D
NCI surfaces for RUGYEX. click for 3D.
This result nicely illustrates the utility of the NCI method; it brings an immediate visual impact, which serves to highlight interactions which otherwise might be ignored.
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By the way, QTAIM analysis on the wavefunction file you've provided only reveals a bond CP between the oxygen atoms with magnitudes of the electron density and its Laplacian being equal to 0.0096 and 0.040 a.u. respectively. However, looking at the electron density contour map (or its 'relief map') I'd say that both O...O and F...H regions look alike and they both resemble a saddle point neighbourhood (unfortunately, I have no clue of how to attach any picture to the post). Starting from the electron density contour map I would doubtlessly assume the existence of the BCP in both regions.
So is it a great advantage of the NCI methdology over the QTAIM that it allows one to discover such weak interactions that do not seem so apparent from the 'QTAIM viewpoint'? Or maybe it's just a weakness in the ProAIM algorithm I used within the AIMAll program suite?
QTAIM reveals BCPs in many regions, but one really does need to inspect the density contour maps as well to get a proper valance. NCI does seem to replicate QTAIM but provide a rather better immediate visual balance.
I should point out that you should contact Julia Contreras-Garcia for more explanation; she has certainly investigated these aspects