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Methyl groups as widespread Lewis bases in noncovalent interactions

Oliver Loveday, Jorge Echeverría

2021Nature Communications38 citationsDOIOpen Access PDF

Abstract

) atoms behave, via their σ-hole, as Lewis acids in tetrel bonding. Here, we show that methyl groups, when bound to atoms less electronegative than carbon, can counterintuitively participate in noncovalent interactions as electron density donors. Thousands of experimental structures are found in which methyl groups behave as Lewis bases to establish alkaline, alkaline earth, triel, tetrel, pnictogen, chalcogen and halogen bonds. Theoretical calculations confirm the high directionality and significant strength of the interactions that arise from a common pattern based on the electron density holes model. Moreover, despite the absence of lone pairs, methyl groups are able to transfer charge from σ bonding orbitals into empty orbitals of the electrophile to reinforce the attractive interaction.

Topics & Concepts

PnictogenLone pairChalcogenNon-covalent interactionsLewis acids and basesAtomic orbitalElectrophileChemistryNatural bond orbitalComputational chemistryChemical physicsGroup (periodic table)Density functional theoryElectron pairHalogenElectron densityFrustrated Lewis pairCrystallographyElectronMoleculePhysicsOrganic chemistryCatalysisAlkylCondensed matter physicsSuperconductivityQuantum mechanicsHydrogen bondCrystallography and molecular interactionsOrganoboron and organosilicon chemistrySynthesis and characterization of novel inorganic/organometallic compounds
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