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Blue‐ and Red‐Shifting C−H⋯O Hydrogen Bonds of Cyclic Ethers with Haloforms: Effect of Ring‐Size and Consistency with Bent's Rule

Bijan Kumar Paul

2024ChemPhysChem11 citationsDOI

Abstract

Abstract A DFT‐based computational study is carried out to delve into the interplay between hyperconjugation and rehybridization effects underlying the formation of blue‐ or red‐shifting H‐bonds (HBs) in 1 : 1 complexes of cyclic ethers (HB acceptor) of varying ring‐size with haloforms, CHF 3 and CHCl 3 (HB donor). The calculations reveal that with decreasing angular strain (increasing ring‐size) of the cyclic ethers, the extent of blue‐shift increases for 1 : 1 complexes with CHF 3 , while a reverse sequence is observed with CHCl 3 , eventually leading to a red‐shifting HB in the oxepane : CHCl 3 complex. It is noted that the trend in the shift of C−H stretching fundamental is not mirrored by the C−H bond length or interaction energies for both the systems studied, that is, the low sensitivity of the changes on the strain on the O‐atom of HB acceptor (cyclic ethers) is to be emphasized.

Topics & Concepts

Ring sizeRing strainChemistryRing (chemistry)HyperconjugationHydrogen bondAcceptorBlueshiftAtom (system on chip)CrystallographyBent molecular geometryRed shiftComputational chemistryStereochemistryPhotochemistryMoleculeOrganic chemistryMaterials scienceCondensed matter physicsComputer sciencePhotoluminescenceQuantum mechanicsGalaxyPhysicsEmbedded systemOptoelectronicsCrystallography and molecular interactionsMolecular Spectroscopy and StructurePhotochemistry and Electron Transfer Studies
Blue‐ and Red‐Shifting C−H⋯O Hydrogen Bonds of Cyclic Ethers with Haloforms: Effect of Ring‐Size and Consistency with Bent's Rule | Litcius