Tris(2-pyridylborate)
(Tpyb) Metal Complexes: Synthesis, Characterization, and Formation
of Extrinsically Porous Materials with Large Cylindrical Channels
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Abstract
Sandwich-like
metal complexes (Tpyb)<sub>2</sub>M (M = Mg, Fe, Mn) that are based
on the novel <i>t</i>-butylphenyltris(2-pyridyl)borate ligand
were prepared and fully characterized by multinuclear NMR spectroscopy,
high-resolution matrix-assisted laser desorption/ionization (MALDI)
mass spectrometry, and single crystal X-ray crystallography. The unique
steric and electronic nature of the Tpyb ligand led to structural
parameters and properties that are quite different to those of previously
reported tris(pyrazolyl)borate and tris(2-pyridyl)aluminate complexes.
Most importantly, depending on the crystallization procedure, supramolecular
structures could be generated with relatively smaller (ca. 4–5
Å) or larger (ca. 8 Å) diameter pores propagating throughout
the crystal lattice. Although the supramolecular structures are held
together only by weak intermolecular C–H···π
interactions, the solvent in the larger channels could be completely
removed without any loss of crystallinity or degradation of the framework.
Surface area and gas uptake measurements on the Mg complex further
confirmed the permanent porosity, while the calculated non-localized
density functional theory (NLDFT) pore diameter of 8.6 Å proved
to be in excellent agreement with that obtained from single crystal
X-ray crystallography. Our new materials are remarkably thermally
stable as degradation did not occur up to about 400 °C based
on thermogravimetric analysis (TGA), and a sample of the Mg complex
showed no loss of crystallinity even after heating to 140 °C
under high vacuum for 72 h according to single crystal X-ray diffraction
data