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Structural and electronic studies of substituted m-terphenyl lithium complexes (2020)
Journal Article
Valentine, A. J., Geer, A. M., Taylor, L. J., Teale, A. M., Wood, K. E., Williams, H. E. L., …Kays, D. L. (2021). Structural and electronic studies of substituted m-terphenyl lithium complexes. Dalton Transactions, 50(2), 722-728. https://doi.org/10.1039/d0dt03972a

The effect of para-substitution upon the structural and electronic properties of a series of m-terphenyl lithium complexes [R-Ar#-Li]2 (R = t-Bu 1, SiMe32, H 3, Cl 4, CF35; where R-Ar# = 2,6-{2,6-Xyl}2-4-R-C6H2 and 2,6-Xyl = 2,6-Me2C6H3) has been inv... Read More about Structural and electronic studies of substituted m-terphenyl lithium complexes.

A transition metal–gallium cluster formed via insertion of “GaI” (2020)
Journal Article
Blundell, T. J., Taylor, L. J., Valentine, A. J., Lewis, W., Blake, A. J., McMaster, J., & Kays, D. L. (2020). A transition metal–gallium cluster formed via insertion of “GaI”. Chemical Communications, 56(58), 8139-8142. https://doi.org/10.1039/d0cc03559a

The reaction between a two-coordinate Co(II) diaryl complex and “GaI” affords 2,6-Pmp2C6H3CoGa3I5, in a new geometry for a heavier group 13-transition metal cluster. Experimental and computational investigations show that this compound is best descri... Read More about A transition metal–gallium cluster formed via insertion of “GaI”.

Influence of molecular design on radical spin multiplicity: characterisation of BODIPY dyad and triad radical anions (2020)
Journal Article
Mangham, B., Hanson-Heine, M. W. D., Davies, E. S., Wriglesworth, A., George, M. W., Lewis, W., …Champness, N. R. (2020). Influence of molecular design on radical spin multiplicity: characterisation of BODIPY dyad and triad radical anions. Physical Chemistry Chemical Physics, 22(8), 4429-4438. https://doi.org/10.1039/c9cp06427c

This journal is © the Owner Societies. A strategy to create organic molecules with high degrees of radical spin multiplicity is reported in which molecular design is correlated with the behaviour of radical anions in a series of BODIPY dyads. Upon re... Read More about Influence of molecular design on radical spin multiplicity: characterisation of BODIPY dyad and triad radical anions.

Corrigendum: A Highly Active Bidentate Magnesium Catalyst for Amine‐Borane Dehydrocoupling: Kinetic and Mechanistic Studies (2020)
Journal Article
Ried, A. C. A., Taylor, L. J., Geer, A. M., Williams, H. E. L., Lewis, W., Blake, A. J., & Kays, D. L. (2020). Corrigendum: A Highly Active Bidentate Magnesium Catalyst for Amine‐Borane Dehydrocoupling: Kinetic and Mechanistic Studies. Chemistry - A European Journal, 26(7), 1692-1692. https://doi.org/10.1002/chem.202000050

In the published paper, we described the attempted synthesis of Me2NH⋅BD3, according to the method published by Webster et al., which in our hands afforded a mixture of Me2NH⋅BH3 and Me2NH⋅BD3. We would like to clarify that in the paper Webster et al... Read More about Corrigendum: A Highly Active Bidentate Magnesium Catalyst for Amine‐Borane Dehydrocoupling: Kinetic and Mechanistic Studies.