The kinetics of borane transfer from simple tertiary phosphine borane adducts to a wide range of amines have been determined. All data obtained, including second-order kinetics, lack of cross-over, and negative entropies of activation for reaction of triphenylphosphine borane with quinuclidine and triethylamine, are consistent with a direct (SN 2-like) transfer process, rather than a dissociative (SN 1-like) process. The identities of the amine, phosphine, and solvent all impact substantially on the rate (k) and equilibrium (K) of the transfer, which in some cases vary by many orders of magnitude. P-to-N transfer is more efficient with cyclic amines in apolar solvents due to reduced entropic costs and ground-state destabilisation. Taken as a whole, the data allow informed optimisation of the deprotection step from the stand-point of rate, or synthetic convenience. In all cases, both reactants should be present at high initial concentration to gain kinetic benefit from the bimolecularity of the process. Ultimately, the choice of amine is dictated by the identity of the phosphine borane complex. Aryl-rich phosphine boranes are sufficiently reactive to allow use of diethylamine or pyrrolidine as a volatile low polarity solvent and reactant, whereas more alkyl-rich phosphines benefit from the use of more reactive amines, such as 1,4-diaza[2.2.2]bicyclooctane (DABCO), in apolar solvents at higher temperatures.
The kinetics of quinuclidine displacement
of BH3 from
a wide range of Lewis base borane adducts have been measured. Parameterization
of these rates has enabled the development of a nucleofugality scale
(N
F
B), shown
to quantify and predict the leaving group ability of a range of other
Lewis bases. Additivity observed across a number of series R′3–n
R
n
X
(X = P, N; R′ = aryl, alkyl) has allowed the formulation of
related substituent parameters (n
f
PB, n
f
AB), providing a means of calculating N
F
B values for a range of Lewis
bases that extends far beyond those experimentally derived. The utility
of the nucleofugality parameter is explored by the correlation of
the substituent parameter n
f
PB with the hydrolyses rates of a series of alkyl
and aryl MIDA boronates under neutral conditions. This has allowed
the identification of MIDA boronates with heteroatoms proximal to
the reacting center, showing unusual kinetic lability or stability
to hydrolysis.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.