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Abstract
Abstract Infrared absorption frequencies and 1H NMR chemical shifts have been measured as a function of O—O distances in compounds with short intramolecular hydrogen bonds. Two types of molecules were investigated, those with intramolecular O-H-O bonds within chelate or constrained systems having no degree of rotational freedom along the O-H-O axis, and molecules possessing symmetry-restricted or unrestricted hydrogen bonds with complete rotational freedom along the O - - H - - O axis. While electronic factors are most important for the nature of the short hydrogen bond in the latter compounds (such as dimeric hydronium ions of pyridine-N-oxides), steric constraints play a dominant role for the former (such as metal glyoximates). 1H MMR chemical shifts δ(O-H-O) (ppm) and IR absorption frequencies v(O-H-O) (cm−1) as a function of the O — O distance are discussed.
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