Abstract
Using the mathematical approach as proposed in a preceding study on 31P chemical shifts, it is found that the 13C chemical shift for molecules of the type X′CX 3, where X and X′ are different monofunctional substituents, can be related to the XCX bond angle and Z′, the number of surrounding electrons at the 13C nucleus. Taking this number to be equal to the carbon atomic number Z for the molecules under study, except those containing substituents such as Br, SCH 3, Cl, OH, OCH 3, and F for which Z′ = Z − 1, not only is a satisfactory agreement between XCX bond-angle values calculated from experimental chemical-shift data and observed values obtained, but also an expected feature concerning the dependence of the chemical shift on the effect of substituents, including their electronegativity as a major factor, appears to be discernible.
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