We show that metal-organic frameworks, based on tetrahedral pyridyl ligands, can be used as a morphological and structural template to form a series of isostructural crystals having different metal ions and properties. An iterative crystal-to-crystal conversion has been demonstrated by consecutive cation exchanges. The primary manganese-based crystals are characterized by an uncommon space group ( P622 ). The packing includes chiral channels that can mediate the cation exchange, as indicated by energy-dispersive X-ray spectroscopy on microtome-sectioned crystals. The observed cation exchange is in excellent agreement with the Irving-Williams series (Mn < Fe < Co < Ni < Cu > Zn) associated with the relative stability of the resulting coordination nodes. Furthermore, we demonstrate how the metal cation controls the optical and magnetic properties. The crystals maintain their morphology, allowing a quantitative comparison of their properties at both the ensemble and single-crystal level.
Directing the Morphology, Packing, and Properties of Chiral MetalOrganic Frameworks by Cation Exchange / Nasi, Hadar; DI GREGORIO, MARIA CHIARA; Wen, Qiang; Shimon, Linda J. W.; Kaplan-Ashiri, Ifat; Bendikov, Tatyana; Leitus, Gregory; Kazes, Miri; Oron, Dan; Lahav, Michal; van der Boom, Milko E.. - In: ANGEWANDTE CHEMIE. - ISSN 1521-3773. - 61:34(2022), pp. 1-9. [10.1002/anie.202205238]
Directing the Morphology, Packing, and Properties of Chiral MetalOrganic Frameworks by Cation Exchange
Maria Chiara di GregorioSecondo
;
2022
Abstract
We show that metal-organic frameworks, based on tetrahedral pyridyl ligands, can be used as a morphological and structural template to form a series of isostructural crystals having different metal ions and properties. An iterative crystal-to-crystal conversion has been demonstrated by consecutive cation exchanges. The primary manganese-based crystals are characterized by an uncommon space group ( P622 ). The packing includes chiral channels that can mediate the cation exchange, as indicated by energy-dispersive X-ray spectroscopy on microtome-sectioned crystals. The observed cation exchange is in excellent agreement with the Irving-Williams series (Mn < Fe < Co < Ni < Cu > Zn) associated with the relative stability of the resulting coordination nodes. Furthermore, we demonstrate how the metal cation controls the optical and magnetic properties. The crystals maintain their morphology, allowing a quantitative comparison of their properties at both the ensemble and single-crystal level.| File | Dimensione | Formato | |
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