Abstract
AbstractThe reaction of isonicotinic acid N‐oxide and Dy(NO)3·6H2O under aerobic conditions leads to the formation of a porous lanthanide, a cubane‐based 3D edifice of the formula [Dy4(μ3‐OH)3(μ3‐O)(NOPyCOO)6(OH)(H2O)3·(DMF)3(H2O)12]∞ (NOPyCOO = pyridine‐4‐carboxylate N‐oxide). Crystal structure investigations show that the [Dy4(μ3‐OH)3(μ3‐O)] cubane cores are interconnected by organic ligands to form an extended porous structure. Thermogravimetric analyses and temperature‐dependent X‐ray diffraction analyses evidence that the compound is stable upon dehydration/desolvatation up to 200 °C. Calculations for the N2 kinetic radius afford a void volume of 3603 Å3 per unit cell (33.8 %) and a potential porosity of 1400 m2 g–1. The large pores can potentially host molecules with a projected surface area as large as 20 Å2 into a large pore volume (600 Å3). Moreover, the onset of a slow magnetic relaxation has been observed and rationalized by a comparison with closely related 0D and 2D compounds.
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