What’s in an Atom? a Comparison of Carbon and Silicon-Centered Amidinium···carboxylate Frameworks

19 August 2020, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Despite their apparent similarity, framework materials based on tetraphenylmethane and tetraphenylsilane building blocks often have quite different structures and topologies. Herein, we describe a new silicon tetraamidinium compound and use it to prepare crystalline hydrogen bonded frameworks with carboxylate anions in water. The silicon-containing frameworks are compared with those prepared from the analogous carbon tetraamidinium: when biphenyldicarboxylate or tetrakis(4-carboxyphenyl)methane anions were used similar channel-containing networks are observed for both the silicon and carbon tetraamidinium. When terephthalate or bicarbonate anions were used, different products form. Insights into possible reasons for the different products are provided by a survey of the Cambridge Structural Database and quantum chemical calculations, both of which indicate that, contrary to expectations, tetraphenylsilane derivatives have less geometrical flexibility than tetraphenylmethane derivatives, i.e. they are less able to distort away from ideal tetrahedral bond angles.

Keywords

supramolecular chemistry
crystal engineering
hydrogen bonding
hydrogen-bonded organic frameworks
HOFs
amidiniums
carboxylates
anti-electrostatic hydrogen bonds

Supplementary materials

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Boer et al ToC
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Boer et al SI
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