Diamondoid Structure in a Metal–Organic Framework of Fe₄ Single‐Molecule Magnets

Abstract: A 3D metal-organic framework (MOF) having single-molecule magnet (SMM) linkers was prepared in crystalline form by using a tetrairon(III) complex functionalised with two divergent pyridyl groups, namely [Fe4 (pPy)2 (dpm)6 ] (1; H3 pPy=2-(hydroxymethyl)-2-(pyridin-4-yl)propane-1,3-diol, Hdpm=dipivaloylmethane). Reaction of 1 with silver(I) perchlorate afforded {[Fe4 (pPy)2 (dpm)6 ]2 Ag}ClO4 (2), which crystallises in a cubic face-centred lattice and exhibits two interlocked diamondoid networks. In 2, the SMMs a… Show more

“…The infrared spectrum of Fe 4 Ag fully resembles the one of Fe 4 ( Figure S5 in Supplementary Materials), which proves the intactness of the starting tetrairon(III) cluster. The presence of AgClO 4 is confirmed by the appearance of a unique perchlorate stretching band at 1122 cm −1 , distinctive of an anion in tetrahedral symmetry and purely ionic character [35], as previously observed for B [14]. It is also possible to detect a weak band at 479 cm −1 tentatively ascribable to the Ag-N bond stretching [36], confirming the coordination of silver(I) by the nitrogen atoms of the pyridyl rings.…”

“…By modulating the redox state of the Ru 2 units (II,II vs. II,III), we could introduce a significant exchange bias with intra-chain coupling, and concomitant enhancement of the remnant magnetization. The ability of A as building block of supramolecular structures has been further confirmed by reaction with silver(I) perchlorate yielding {[Fe 4 (pPy) 2 (dpm) 6 ] 2 Ag}(ClO 4 ) (B), a tridimensional metal-organic framework (3D-MOF) [14]. In this compound, Ag + ions behave as tetrahedral nodes coordinated by four pyridyl nitrogen atoms of Fe 4 units, and the cubic crystals, although with no overall second-order anisotropy, can be persistently magnetized parallel or antiparallel to the four main diagonals of the unit cell.…”

“…Complexes of the family of tetrairon(III) SMMs with general formula [Fe 4 (L) 2 (dpm) 6 ] [12][13][14] (H 3 L = tripodal ligand, Hdpm = dipivaloylmethane) include four coplanar high spin iron(III) ions (s = 5/2) forming a centered triangular geometry. The central metal atom (Fe c ) is antiferromagnetically coupled to the three peripheral ones (Fe p ) so as to give an S = 5 spin ground state.…”

“…Compound B also possesses accessible voids (14.3% of unit cell volume) able to trap small solvent molecules, which can be exploited as a means for modulating the magnetic properties. However, due to the presence of two interlocked dia networks (according to IUPAC nomenclature [27]), the space left inside the 3D-MOF is not available for bigger molecules [14]. In the attempt to build-up a new polymeric structure with larger cavities by elongating the SMM spacer, in this work we synthesized the new tripodal ligand H 3 PhpPy, 2-(hydroxymethyl)-2-(4-(pyridine-4-yl)phenyl) propane-1,3-diol (Scheme 1), where we added a phenyl ring between the triol unit and the pyridyl terminal fragment with respect to H 3 pPy.…”

New Silver(I) Coordination Polymer with Fe4 Single-Molecule Magnets as Long Spacer

“…The infrared spectrum of Fe 4 Ag fully resembles the one of Fe 4 ( Figure S5 in Supplementary Materials), which proves the intactness of the starting tetrairon(III) cluster. The presence of AgClO 4 is confirmed by the appearance of a unique perchlorate stretching band at 1122 cm −1 , distinctive of an anion in tetrahedral symmetry and purely ionic character [35], as previously observed for B [14]. It is also possible to detect a weak band at 479 cm −1 tentatively ascribable to the Ag-N bond stretching [36], confirming the coordination of silver(I) by the nitrogen atoms of the pyridyl rings.…”

“…By modulating the redox state of the Ru 2 units (II,II vs. II,III), we could introduce a significant exchange bias with intra-chain coupling, and concomitant enhancement of the remnant magnetization. The ability of A as building block of supramolecular structures has been further confirmed by reaction with silver(I) perchlorate yielding {[Fe 4 (pPy) 2 (dpm) 6 ] 2 Ag}(ClO 4 ) (B), a tridimensional metal-organic framework (3D-MOF) [14]. In this compound, Ag + ions behave as tetrahedral nodes coordinated by four pyridyl nitrogen atoms of Fe 4 units, and the cubic crystals, although with no overall second-order anisotropy, can be persistently magnetized parallel or antiparallel to the four main diagonals of the unit cell.…”

“…Complexes of the family of tetrairon(III) SMMs with general formula [Fe 4 (L) 2 (dpm) 6 ] [12][13][14] (H 3 L = tripodal ligand, Hdpm = dipivaloylmethane) include four coplanar high spin iron(III) ions (s = 5/2) forming a centered triangular geometry. The central metal atom (Fe c ) is antiferromagnetically coupled to the three peripheral ones (Fe p ) so as to give an S = 5 spin ground state.…”

“…Compound B also possesses accessible voids (14.3% of unit cell volume) able to trap small solvent molecules, which can be exploited as a means for modulating the magnetic properties. However, due to the presence of two interlocked dia networks (according to IUPAC nomenclature [27]), the space left inside the 3D-MOF is not available for bigger molecules [14]. In the attempt to build-up a new polymeric structure with larger cavities by elongating the SMM spacer, in this work we synthesized the new tripodal ligand H 3 PhpPy, 2-(hydroxymethyl)-2-(4-(pyridine-4-yl)phenyl) propane-1,3-diol (Scheme 1), where we added a phenyl ring between the triol unit and the pyridyl terminal fragment with respect to H 3 pPy.…”

New Silver(I) Coordination Polymer with Fe4 Single-Molecule Magnets as Long Spacer

“…These substituents lie in axial positions at opposite sides of the molecular plane and can be chosen at will to add various functionalities . Complex 3 4 ‐ Py , for instance, acts as a rigid 180°‐ditopic linker that can be assembled into a 3D MOF and chain‐like structures (Figure ) by reaction with Ag + ions and diruthenium paddlewheels [Ru 2 (OAc) 4 ] 0,+1 , respectively. Especially relevant to the present Microreview are R groups that allow to promote and control chemisorption on metals, , , , or carbon substrates, from solution.…”

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