%0 Journal Article
%T Unravelling White Phosphorus: Experimental and Computational Studies Reveal the Mechanisms of P4 Hydrostannylation.
%A Scott DJ
%A Cammarata J
%A Westermair FF
%A Coburger P
%A Duvinage D
%A Janssen M
%A Uttendorfer MK
%A Beckmann J
%A Gschwind RM
%A Wolf R
%J Angew Chem Int Ed Engl
%V 0
%N 0
%D 2024 Jul 1
%M 38946592
%F 16.823
%R 10.1002/anie.202408423
%X The hydrostannylation of white phosphorus (P4) allows this crucial industrial precursor to be easily transformed into useful P1 products via direct, 'one pot' (or even catalytic) procedures. However, a thorough mechanistic understanding of this transformation has remained elusive, hindering attempts to use this rare example of successful, direct P4 functionalization as a model for further reaction development. Here, we provide a deep and generalizable mechanistic picture for P4 hydrostannylation by combining DFT calculations with in situ31P NMR reaction monitoring and kinetic trapping of previously unobservable reaction intermediates using bulky tin hydrides. The results offer important insights into both how this reaction proceeds and why it is successful and provide implicit guidelines for future research in the field of P4 activation.