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1.
Chemistry ; 25(64): 14583-14597, 2019 Nov 18.
Artigo em Inglês | MEDLINE | ID: mdl-31361924

RESUMO

Reactions of [Mn(H2 dapsc)Cl2 ]⋅H2 O (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(H2 dapsc)][Fe(CN)6 ][K(H2 O)3.5 ]}n ⋅1.5n H2 O (1) and the discrete pentanuclear complex {[Mn(H2 dapsc)]3 [Fe(CN)6 ]2 (H2 O)2 }⋅4 CH3 OH⋅3.4 H2 O (2), respectively. In the crystal structure of 1 the high-spin [MnII (H2 dapsc)]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 H2 dapsc 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 (H2 dapsc)]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.

2.
Dalton Trans ; 48(25): 9328-9336, 2019 Jun 25.
Artigo em Inglês | MEDLINE | ID: mdl-31166344

RESUMO

The iron(iii) complex [Fe(Hsemsal)(semsal)]·3H2O (1) (H2semsal - salicylaldehyde semicarbazone) has been synthesized and characterized by powder and single crystal X-ray diffraction, and magnetic susceptibility measurements. Crystal structure analysis showed that the complex forms neat stacks stabilized by hydrogen-bonding through water molecules and π-π interactions between phenolate rings of ligands. The complex does not exhibit spin-crossover phenomena and remains in the high-spin state down to 2 K. DFT calculations were performed for a series of neutral Fe(iii) complexes, and the influence of the N2S2O2, N2Se2O2 and N2O4 coordination environment on the spin transition in these complexes was traced. The effect of substituents in the benzene ring of salicylaldehyde on the stabilization of the HS or LS states in complexes of this type was analyzed.

3.
Dalton Trans ; 47(45): 16040-16043, 2018 Nov 22.
Artigo em Inglês | MEDLINE | ID: mdl-30387800

RESUMO

The DFT calculations of the spin crossover complex [FeIII(Sal2-trien)]+ (1) with the following classification of conformers of 1 were performed. The study shows that rearrangements of ethylene group orientation in a coordinated ligand lead to the stabilization of the high-spin or low-spin iron(iii) state.

4.
Inorg Chem ; 56(15): 8926-8943, 2017 Aug 07.
Artigo em Inglês | MEDLINE | ID: mdl-28686422

RESUMO

Two one-dimensional cyano-bridged coordination polymers, namely, {[MnII(dapsc)][MnIII(CN)6][K(H2O)2.75(MeOH)0.5]}n·0.5n(H2O) (I) and {[MnII(dapsc)][MnIII(CN)6][K(H2O)2(MeOH)2]}n (II), based on alternating high-spin MnII(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 Ueff ≈ 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 MnIII-CN-MnII spin coupling resulting from a nonmagnetic singlet ground state of orbitally degenerate complexes [MnIII(CN)6]3-. The prospects of [MnIII(CN)6]3- complex as magnetically anisotropic molecular building block for engineering molecular magnets are critically analyzed.

5.
Inorg Chem ; 55(17): 9121-30, 2016 Sep 06.
Artigo em Inglês | MEDLINE | ID: mdl-27541570

RESUMO

The radical anion salt [Fe{HC(pz)3}2](TCNQ)3 demonstrates conductivity and spin-crossover (SCO) transition associated with Fe(II) complex cation subsystem. It was synthesized and structurally characterized at temperatures 100, 300, 400, and 450 K. The compound demonstrates unusual for 7,7,8,8,-tetracyanoquinodimethane (TCNQ)-based salts quasi-two-dimensional conductivity. Pronounced changes of the in-plane direct-current resistivity and intensity of the electron paramagnetic resonance (EPR) signal, originated from TCNQ subsystem, precede the SCO transition at the midpoint T* = 445 K. The boltzmannian growth of the total magnetic response and structural changes in the vicinity of T* uniquely show that half [Fe{HC(pz)3}2] cations exist in high-spin state. Robust broadening of the EPR signal triggered by the SCO transition is interpreted in terms of cross relaxation between the TCNQ and Fe(II) spin subsystems.

6.
Dalton Trans ; 44(37): 16553-64, 2015 Oct 07.
Artigo em Inglês | MEDLINE | ID: mdl-26332086

RESUMO

A series of half-sandwich and sandwich-type lanthanide(III) complexes have been prepared using tetrabenzotriazaporphyrin ligands. Reaction of 27-phenyl-29H,31H-tetrabenzo[b,g,l,q][5,10,15]-triazaporphyrin (PhTBTAPH2, 1) with salts [LnX3]·nH2O (Ln = Eu (a), Lu (b); X = OAc, acac) afforded the single- and homoleptic double-deckers (PhTBTAP)LnOAc (2) and (PhTBTAP)2Ln (3) respectively. Heteroleptic double-decker compounds (PhTBTAP)LnPc (4a,b) were obtained upon interaction of 1 with the corresponding Ln mono(phthalocyaninates). An unexpected formation of partially and completely dephenylated co-products 5 and 6 has been detected in the synthesis of sandwich 3, while the possibility of the dearylation of the half-sandwich compound 2 has been demonstrated as well. A more predictable yet firstly observed formation of the triple-decker compound (PhTBTAP)3Eu2 (7) has also been found. Structural studies of 3 supported by 1H NMR spectra, XRD analysis and DFT theoretical calculations reveal that the Eu complex 3a is formed as a single isomer, while the lutetium compound 3b represents an inseparable mixture of two rotational isomers with virtually identical spectral characteristics. The double-decker compounds 3 and 4 reveal intrinsic UV-Vis/NIR absorption as well as peculiar electrochromic behavior. The heteroleptic derivatives 4 generally show intermediate spectral and electrochemical properties with respect to their homoleptic relatives.

7.
Phys Chem Chem Phys ; 15(23): 9136-44, 2013 Jun 21.
Artigo em Inglês | MEDLINE | ID: mdl-23649228

RESUMO

New fullerene salts (TMP(+))2·(C60(2-))·(C6H4Cl2)2 (1), {DB-18-crown-6·[Na(+)]·(C6H5CN)2}2·(C60(2-))·C6H5CN·C6H4Cl2 (2), {cryptand[2,2,2]·(Na(+))}2·(C60(2-)) (3) and (PPN(+))2·(C60(2-))·(C6H4Cl2)2 (4) were obtained as single crystals. Their crystal structures were solved and their optical and magnetic properties were analyzed. The spectra of the salts in the IR and UV-visible-NIR ranges indicate the formation of C60(2-) dianions in 1-4. These salts show similar behavior in EPR measurements, explained by the diamagnetic ground state of the C60(2-) dianions and the thermal population of the excited triplet state, which is separated by an energy gap of 487-540 cm(-1). The magnetic susceptibility of 4 also increased above 130 K due to the population of the excited triplet state. The observed splitting of the C60 LUMO is attributed to the Jahn-Teller (JT) effect. We analyzed the splitting by an extended Hückel method using the single-crystal structural data for the compounds containing neutral, mono- and dianions of C60. The splitting of the initially triply degenerated C60 LUMO produces three molecular orbitals. The gap between the lowest and highest orbitals is very small in neutral C60 (128-140 cm(-1)), it increases in C60(˙-) (500-710 cm(-1)) and increases further in C60(2-) (1080-1670 cm(-1)). It was found that the splitting of the C60 LUMO is realized in different ways for the mono- and dianions. The ground and first excited state are separated in C60(˙-) by a small gap of 55-180 cm(-1) only. This gap is noticeably larger in the C60(2-) dianions and falls into the 760-1390 cm(-1) range.

8.
Dalton Trans ; 41(45): 13841-7, 2012 Dec 07.
Artigo em Inglês | MEDLINE | ID: mdl-23033119

RESUMO

Ionic compounds containing the anion of iron phthalocyanine (Fe(I)Pc)(-), {(Fe(I)Pc)(-)}·(cryptand[2,2,2]·[Na(+)])·(C(6)H(4)Cl(2)) (1), and the fullerene C(70)(-) and Fe(I)Pc(-) anions, (C(70)(-))(2)·{(Fe(I)Pc)(-)}(6)·(cryptand[2,2,2]·[Na(+)])(8)·(C(6)H(4)Cl(2))(8.65)·(C(6)H(14))(0.35) (2), were obtained as single crystals. Their crystal structures and optical and magnetic properties were analyzed. Spectra of 1 and 2 manifest intense bands in visible-NIR range at 820, 690, 555, 528, 449, 400 and 316 nm attributed to (Fe(I)Pc)(-). The four-coordinate (Fe(I)Pc)(-) anions show an EPR signal with perpendicular and parallel components at g(⊥) = 2.487 and g(‖) = 2.353 in 1 and g(⊥) = 2.328 and g(‖) = 2.230 in 2. According to magnetic measurements the (Fe(I)Pc)(-) anions have low spin (S = 1/2) state indicating d(7) configuration for the Fe(I) atoms with the odd electron on the d(z(2)) orbital. Fullerene anions form singly bonded (C(70)(-))(2) dimers in 2, the shape of which efficiently fitted with the large planar phthalocyanine anions to be surrounded completely by eight (Fe(I)Pc)(-) anions. The (C(70)(-))(2) dimers are diamagnetic and EPR silent up to 350 K. Both complexes contain channels formed by four (Fe(I)Pc)(-) planes in 1 or four (Fe(I)Pc)(-) planes and two (C(70)(-))(2) dimers in 2. The channels are occupied by double chains of alternating cryptand[2,2,2]·[Na(+)] cations and solvent C(6)H(4)Cl(2) molecules.

9.
Dalton Trans ; 40(36): 9176-9, 2011 Sep 28.
Artigo em Inglês | MEDLINE | ID: mdl-21826370

RESUMO

The new reduction method for preparation of η(2)-complexes of fullerenes with nickel-1,3-bis(diphenylphosphino)propane has been developed in which Ni(dppp)Cl(2) and C(60)(C(70)) mixtures are reduced with sodium tetraphenylborate. Single crystals of the first η(2)-complex of nickel with fullerene C(70): {Ni(dppp)·(η(2)-C(70))}·(C(6)H(4)Cl(2))(0.5) (1) (C(6)H(4)Cl(2) = o-dichlorobenzene) have been obtained as well as the previously described complex with fullerene C(60): {Ni(dppp)·(η(2)-C(60))}·(Solvent) (2). The crystal structure of 1 has been solved to show the coordination of nickel to the C-C bond of C(70) at the 6-6 ring junction of η(2)-type to form Ni-C(C(70)) bonds of 1.929-1.941(2) Å length, the shortest M-C bonds among those known for η(2)-complexes of fullerenes C(60) and C(70). The length of the C-C bond to which Ni atom is coordinated (1.494(3) Å) is noticeably longer than the average length of these bonds in C(70) (1.381(2) Å). Optical spectra of 1 in the IR- and UV-visible ranges have been analyzed to show the splitting of some C(70) bands due to C(70) symmetry lowering. The complex has a red-brown color in solution and manifests three bands in the visible range at 379, 467 and 680 nm. The solution of 1 is air sensitive since air exposure restores the color and absorption bands of the starting C(70) at 383 and 474 nm.

10.
Dalton Trans ; 40(17): 4453-8, 2011 May 07.
Artigo em Inglês | MEDLINE | ID: mdl-21423916

RESUMO

New ionic complex {Co(+)(dppe)(2)}·(C(60)˙(-))·(C(6)H(4)Cl(2))(2) (1) was obtained by the reduction of a Co(dppe)Br(2) and C(60) mixture by TDAE in o-dichlorobenzene followed by precipitation of crystals by hexane. Optical and EPR spectra of 1 indicated the formation of C(60)˙(-) radical anions and diamagnetic Co(+)(dppe)(2) cations. The structure of 1 solved at 100(2) K involves chains of C(60)˙(-) arranged along the lattice a-axis with a center-to-center distance of 10.271 Å. The chains are separated by bulky Co(+)(dppe)(2) cations and solvent molecules. All components of 1 are well ordered allowing the distortion of the C(60)˙(-) radical anion to be analyzed. An elongation of the C(60)˙(-) sphere by 0.0254(2) was found. It is essentially smaller than those in the salts (Cp*(2)Ni(+))·(C(60)˙(-))·CS(2) and (PPN(+))(2)·(C(60)(2-)) with greater distortion of the fullerene cage. The calculation of the electronic structure of fullerene by the extended Hückel method showed slight splitting of the C(60) LUMO, due to the distortion, by three levels. Two levels are located 180 and 710 cm(-1) higher than the ground level. The averaged 6-6 and 5-6 bonds in C(60)˙(-) with lengths of 1.397(2) and 1.449(2) Å are close to those determined for the C(60)(2-) dianions in (PPN(+))(2)·(C(60)(2-)), but are slightly longer and shorter, respectively, than the length of these bonds in neutral C(60).

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