Gold Complexes with ADAP Ligands: Effect of Bulkiness in Catalytic Carbene Transfer Reactions (ADAP = Alkoxydiaminophosphine)
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Abstract
A family of gold(I) complexes of composition
AuCl(ADAP) (ADAP = alkoxydiaminophosphine) has been
synthetized through a one-pot simple protocol in which the
ADAP ligand is prepared in situ before reaction with the Au(I)
source. Structural data demonstrate that these ADAP ligands exert
a trans effect superior to those of phosphine or phosphite ligands.
Evaluation of the buried volume (%VBur) indicates a steric
hindrance higher than those of several NHC, PR3, and P(OR3)
ligands, in the context of AuCl(L) complexes. These complexes
promote the catalytic transfer of a carbene group from ethyl
diazoacetate to alkenes and alkanes. In the case of styrene, both the
Csp2−H bonds and the CC bond are functionalized, the relative
ratio depending on the catalyst employed and correlating well with
the %VBur value. Data available allow proposing that these compounds display quite similar electronic properties but differ in steric
properties, a variable that can be readily controlled upon modifying the alkoxy group at the ADAP ligand by simply replacing the
starting alcohol employed in the synthesis.
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Pizarro, J. D., Molina, F., Romero Fructos, M. & Pérez, P. J. (2020). Gold Complexes with ADAP Ligands: Effect of Bulkiness in Catalytic Carbene Transfer Reactions (ADAP = Alkoxydiaminophosphine). Organometallics, 39(13), 2553–2559. DOI: https://doi.org/10.1021/acs.organomet.0c00343















