Authors
- Jeffrey Pau Ryerson University ,
- Jung-Won Choi Ryerson University ,
- Kaitlyn Silverthorne Ryerson University ,
- Mokhamed Ranne Ryerson University ,
- R. Stephen Wylie Ryerson University ,
- Robert Gossage Ryerson University ,
- Alan Lough University of Toronto ,
- Daniel Foucher
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Ryerson University
Abstract
In this paper we outline two major findings. The first is that we describe how designer hypercoordinate stannanes can be made from simple substitutions, and by extension, designer tin polymers, at least partially, using these methods. The second is that using advanced DFT methods, 119Sn NMR frequencies have been accurately calculated for select hypercoordinate tin compounds. This accuracy provides a means for further investigation of an important bonding interaction in the solution phase, and is of significant interest to small molecule tin chemists.
Content
Supplementary material
Supplementary Data for New Hypercoordinating Organostannanes for the Modular Functionalization of Mono- and Polystannanes: Synthetic and Computational Studies
NMR (1H, 13C, 119Sn), HRMS, UV-Vis, PXRD, and DFT optimization and DFT NMR calculations for select compounds of this study
