Puga, Alberto V.Teixidor, FrancescSillanpaa, ReijoKivekas, RaikkoArca, MassimilianoBarbera, GemmaViñas, Clara2016-06-242016-06-2420090947-6539https://riunet.upv.es/handle/10251/66418[EN] The incorporation of iodine atoms onto the boron vertices of the o-carborane framework causes, according to spectroscopic data, a uniform increase in the acidic character of the C-c-H (C-c= cluster carbon) vertices, whereas the incorporation of methyl groups onto the boron vertices of the o-carborane framework reduces their acidity. Methyl groups when attached to boron are electron-withdrawing in boron clusters, whereas iodine atoms bonded to boron act as electron donors. This has been proven on B-methyl and B-iodinated o-carboranes with NMR spectroscopy measurements and DFT calculations of natural bond orbital (NBO) charges. which show a Cumulative buildup of positive cluster only total charge (CTC) on B-methyl o-carboranes and a cumulative buildup of negative cluster-only total charge for B-iodinated o-carboranes.Reserva de todos los derechosBoronCarboranesDensity functional calculationsIodineNatural bond orbital chargesQUIMICA ANALITICAFrom Mono- to Poly-Substituted Frameworks: A Way of Tuning the Acidic Character of C-c-H in o-Carborane DerivativesArtículo10.1002/chem.200900925Cerrado19697374