Abdalla, Joseph A. B.
Caise, Alexa
Sindlinger, Christian P.
Tirfoin, Rémi
Thompson, Amber L. http://orcid.org/0000-0001-8258-860X
Edwards, Alison J.
Aldridge, Simon http://orcid.org/0000-0001-9998-9434
Article History
Received: 2 October 2016
Accepted: 4 May 2017
First Online: 12 June 2017
Change Date: 18 December 2017
Change Type: Corrigendum
Change Details: References 23–27 and 31–38 in the introductory paragraphs describe literature precedent for the activation of two E–H bonds at a transition metal centre for E = B or C). It should be noted that experimental precedent also exists for the analogous activation of Si–H bonds and the manuscript has been modified to include additional citation of this chemistry (refs 22, 28–30). References 22. Lipke, M. C., Liberman-Martin, A. L. & Tilley, T. D. Electrophilic activation of silicon–hydrogen bonds in catalytic hydrosilations. Angew. Chem. Int. Ed. 56, 2260–2294 (2017). 28. Thomas, C. M. & Peters, J. C. An η3-H2SiR2 adduct of [{PhB(CH2PiP2)3}FeH. Angew. Chem. Int. Ed. 45, 776–780 (2006). 29. Faluso, M. E., Glaser, P. B. & Tilley, T. D. Cp*;(PiPr3)RuOTf: a reagent for access to ruthenium silylene complexes. Organometallics 30, 5524–5531 (2011). 30. Faluso, M. E., Lipke, M. C. & Tilley, T. D. Structural and mechanistic investigation of a cationic hydrogen-substituted ruthenium silylene catalyst for alkene hydrosilation. Chem. Sci. 4, 3882–3887 (2013).
Competing interests
: The authors declare no competing financial interests.