V. D. Sasnovskaya scite author profile

Two one-dimensional cyano-bridged coordination polymers, namely, {[Mn(dapsc)][Mn(CN)][K(HO)(MeOH)]}·0.5n(HO) (I) and {[Mn(dapsc)][Mn(CN)][K(HO)(MeOH)]} (II), based on alternating high-spin Mn(dapsc) (dapsc = 2,6-diacetylpyridine bis(semicarbazone)) complexes and low-spin orbitally degenerate hexacyanomanganate(III) complexes were synthesized and characterized structurally and magnetically. Static and dynamic magnetic measurements reveal a single-chain magnet (SCM) behavior of I with an energy barrier of U ≈ 40 K. Magnetic properties of I are analyzed in detail in terms of a microscopic theory. It is shown that compound I refers to a peculiar case of SCM that does not fall into the usual Ising and Heisenberg limits due to unconventional character of the Mn-CN-Mn spin coupling resulting from a nonmagnetic singlet ground state of orbitally degenerate complexes [Mn(CN)]. The prospects of [Mn(CN)] complex as magnetically anisotropic molecular building block for engineering molecular magnets are critically analyzed.

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Slow Magnetic Relaxation, Antiferromagnetic Ordering, and Metamagnetism in Mn^II(H₂dapsc)‐Fe^III(CN)₆Chain Complex with Highly Anisotropic Fe‐CN‐Mn Spin Coupling

Zorina

Simonov

Sasnovskaya

et al. 2019

Chemistry A European J

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Reactions of [Mn(H2dapsc)Cl2]⋅H2O (dapsc=2,6‐ diacetylpyridine bis(semicarbazone)) with K3[Fe(CN)6] and (PPh4)3[Fe(CN)6] lead to the formation of the chain polymeric complex {[Mn(H2dapsc)][Fe(CN)6][K(H2O)3.5]}n⋅1.5n H2O (1) and the discrete pentanuclear complex {[Mn(H2dapsc)]3[Fe(CN)6]2(H2O)2}⋅4 CH3OH⋅3.4 H2O (2), respectively. In the crystal structure of 1 the high‐spin [MnII(H2dapsc)]2+ cations and low‐spin hexacyanoferrate(III) anions are assembled into alternating heterometallic cyano‐bridged chains. The K+ ions are located between the chains and are coordinated by oxygen atoms of the H2dapsc ligand and water molecules. The magnetic structure of 1 is built from ferrimagnetic chains, which are antiferromagnetically coupled. The complex exhibits metamagnetism and frequency‐dependent ac magnetic susceptibility, indicating single‐chain magnetic behavior with a Mydosh‐parameter φ=0.12 and an effective energy barrier (Ueff/kB) of 36.0 K with τ0=2.34×10−11 s for the spin relaxation. Detailed theoretical analysis showed highly anisotropic intra‐chain spin coupling between [FeIII(CN)6]3− and [MnII(H2dapsc)]2+ units resulting from orbital degeneracy and unquenched orbital momentum of [FeIII(CN)6]3− complexes. The origin of the metamagnetic transition is discussed in terms of strong magnetic anisotropy and weak AF interchain spin coupling.

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1D chain coordination assembly of [Mn4(hmp)6(NO3)2]2+ single-molecule magnets linked by the photochromic [FeNO(CN)5]2− precursor

Kushch

Sasnovskaya

Yagubskii

et al. 2011

Inorganica Chimica Acta

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The first photochromic bimetallic assemblies based on Mn(iii) and Mn(ii) Schiff-base (salpn, dapsc) complexes and pentacyanonitrosylferrate

et al. 2015

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A Series of Field-Induced Single-Ion Magnets Based on the Seven-Coordinate Co(II) Complexes with the Pentadentate (N3O2) H2dapsc Ligand

et al. 2019

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A series of five new mononuclear pentagonal bipyramidal Co(II) complexes with the equatorial 2,6-diacetylpyridine bis(semicarbazone) ligand (H2dapsc) and various axial pseudohalide ligands (SCN, SeCN, N(CN)2, C(CN)3, and N3) was prepared and structurally characterizated: [Co(H2dapsc)(SCN)2]∙0.5C2H5OH (1), [Co(H2dapsc)(SeCN)2]∙0.5C2H5OH (2), [Co(H2dapsc)(N(CN)2)2]∙2H2O (3), [Co(H2dapsc)(C(CN)3)(H2O)](NO3)∙1.16H2O (4), and {[Co(H2dapsc)(H2O)(N3)][Co(H2dapsc)(N3)2]}N3∙4H2O (5). The combined analyses of the experimental DС and AC magnetic data of the complexes (1–5) and two other earlier described those of this family [Co(H2dapsc)(H2O)2)](NO3)2∙2H2O (6) and [Co(H2dapsc)(Cl)(H2O)]Cl∙2H2O (7), their theoretical description and the ab initio CASSCF/NEVPT2 calculations reveal large easy-plane magnetic anisotropies for all complexes (D = + 35 − 40 cm‒1). All complexes under consideration demonstrate slow magnetic relaxation with dominant Raman and direct spin–phonon processes at static magnetic field and so they belong to the class of field-induced single-ion magnets (SIMs).

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V. D. Sasnovskaya

Synthesis, Structure, and Magnetic Properties of 1D {[Mn^III(CN)₆][Mn^II(dapsc)]}_n Coordination Polymers: Origin of Unconventional Single-Chain Magnet Behavior

Slow Magnetic Relaxation, Antiferromagnetic Ordering, and Metamagnetism in Mn^II(H₂dapsc)‐Fe^III(CN)₆Chain Complex with Highly Anisotropic Fe‐CN‐Mn Spin Coupling

1D chain coordination assembly of [Mn4(hmp)6(NO3)2]2+ single-molecule magnets linked by the photochromic [FeNO(CN)5]2− precursor

The first photochromic bimetallic assemblies based on Mn(iii) and Mn(ii) Schiff-base (salpn, dapsc) complexes and pentacyanonitrosylferrate

A Series of Field-Induced Single-Ion Magnets Based on the Seven-Coordinate Co(II) Complexes with the Pentadentate (N3O2) H2dapsc Ligand

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V. D. Sasnovskaya

Synthesis, Structure, and Magnetic Properties of 1D {[MnIII(CN)6][MnII(dapsc)]}n Coordination Polymers: Origin of Unconventional Single-Chain Magnet Behavior

Slow Magnetic Relaxation, Antiferromagnetic Ordering, and Metamagnetism in MnII(H2dapsc)‐FeIII(CN)6Chain Complex with Highly Anisotropic Fe‐CN‐Mn Spin Coupling

1D chain coordination assembly of [Mn4(hmp)6(NO3)2]2+ single-molecule magnets linked by the photochromic [FeNO(CN)5]2− precursor

The first photochromic bimetallic assemblies based on Mn(iii) and Mn(ii) Schiff-base (salpn, dapsc) complexes and pentacyanonitrosylferrate

A Series of Field-Induced Single-Ion Magnets Based on the Seven-Coordinate Co(II) Complexes with the Pentadentate (N3O2) H2dapsc Ligand

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Synthesis, Structure, and Magnetic Properties of 1D {[Mn^III(CN)₆][Mn^II(dapsc)]}_n Coordination Polymers: Origin of Unconventional Single-Chain Magnet Behavior

Slow Magnetic Relaxation, Antiferromagnetic Ordering, and Metamagnetism in Mn^II(H₂dapsc)‐Fe^III(CN)₆Chain Complex with Highly Anisotropic Fe‐CN‐Mn Spin Coupling