Effect of Metal Dilution on the Thermal Spin Transition of [FexZn1–x(bapbpy)(NCS)2]

Zheng, Sipeng; Siegler, Maxime A.; Costa, José Sánchez; Fu, W.T.; Bonnet, Sylvestre

doi:10.1002/ejic.201201183

Cited by 20 publications

(9 citation statements)

References 36 publications

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“…Overall, the iron‐to‐iron intermolecular distances might be longer in 2 than in [Fe(bapbpy)(NCS) 2 ], which would explain the lack of cooperativity for this compound. This effect is similar to the metal dilution effect shown in [Fe x Zn 1− x (bapbpy)(NCS) 2 ], [52] where increasing concentrations of the magnetic inert Zn ions in the crystal lattice causes the iron centers to become further away from each other, resulting in a lowered cooperativity for SCO.…”

Section: Discussionsupporting

confidence: 66%

Highly Ordered, Self‐Assembled Monolayers of a Spin‐Crossover Complex with In‐Plane Interactions

et al. 2021

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For the technological integration of molecular switches in electronic devices, self‐assembling nanomaterials of such switches are highly sought after. The syntheses of a new tetrapyridyl ligand bearing a C12 alkyl chain and two N−H bridges (compound 1) and of its iron(II) complex [Fe(1)(NCS)2] (compound 2), are described. Magnetic susceptibility data for bulk samples of 2 confirmed their gradual spin‐crossover properties. The self‐assembly of 1 and 2 on highly ordered pyrolytic graphite surfaces (HOPG) was investigated by Scanning Tunneling Microscopy (STM). Both compounds 1 and 2 formed ordered monolayers after deposition by drop casting. The patterns of the two compounds are very different, which is attributed to the fundamentally different hydrogen bonding networks before and after coordination of Fe(NCS)2 to the tetradentate chelate. Two possible models for the self‐assembly of 1 and 2 are provided. This work suggests that it is possible to design molecular switches that self‐assemble on surfaces in highly ordered monolayer films. This is a significant step in the development of spin‐switching materials, which may streamline the integration of molecular switches in for example memory and sensing devices.

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Section: Discussionsupporting

confidence: 66%

Highly Ordered, Self‐Assembled Monolayers of a Spin‐Crossover Complex with In‐Plane Interactions

et al. 2021

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“…To put into perspective the linear decrease of TSCO observed in the series 3x, we have compared the relative decrease TSCO, defined as TSCO(x)/TSCO(x = 1), with four other molecular SCO systems for which doping into the Zn analogue has been studied. These include a similar bis-tris-imine coordination environment in [FexZn1-x(bpp)2](NCSe)2 (bpp = 2,6-bis(pyrazol-3-yl)pyridine) [53], a tris-amineimine chromophore in [FexZn1-x(2-pic)3]Cl2•EtOH (2-pic = 2-picolylamine) [35] and two systems with axial thiocyanate donors and either a twice bis-imine equatorial environment, in [FexZn1-x(phen)2(NCS)2] (phen = 1,10-phenantroline) [33], or a tetra-imine chelate, in [FexZn1-x(bapbpy)(NCS)2]•3DMF (bapbpy = N6,N6'-di(pyridin-2-yl)-2,2'-bipyridine-6,6'diamine) [63]. Remarkably, and despite different temperature ranges for the SCO as well as different types of SCO processes, the data of all five series of doped materials follow approximately a common master linear trend, best described by TSCO(x) = 62.3+37.1x.…”

Section: Solid-state Magnetic Propertiesmentioning

confidence: 99%

Variations to Spin Crossover in [FexZn(1−x)(Me1,3bpp)2(ClO4)2] molecular alloys examined by Magnetometry and Single Crystal X-Ray Diffraction

Diego¹,

Roubeau²,

Aromı́³

2021

Chem.Sq.

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Spin crossover (SCO) active solid solutions with formula [FexZn1-x(Me1,3bpp)2](ClO4)2 (x = 0.10, 0.15, 0.22, 0.33, 0.41, 0.48, 0.56 and 0.64, Me1,3bpp is a bis-pyrazolylpyridine) and the complex [Zn(Me1,3bpp)2](ClO4)2 have been prepared and characterized by single crystal X-ray diffraction. The structural data and the powder diffraction patterns of all the compounds have been compared with the reported isostructural molecular crystal [Fe(Me1,3bpp)2](ClO4)2. Increasing amounts of Zn diminishes monotonically the cooperativity of the SCO of the parent Fe(II) complex (T1/2=183 K) and cause a decrease of T1/2 in line with the negative chemical pressure exerted by the Zn(II) complexes on the Fe(II) lattice. The gradual variation of the magnetic properties as the composition changes are paralleled by the evolution of the structural parameters at the molecular, intermolecular and crystal lattice scales. Thermal trapping of a portion of the Fe(II) centers of these alloys by quenching the crystals to 2 K unveils that, upon warming, the temperature of relaxation of the metastable states is almost constant for all compositions.

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“…In addition, with an increasing x value, spin crossovers become more gradual. According to the reported observations [16][17][18][19][20][21][22][23][24][25], these results are explained as follows. Since the ionic radii of Co(II) HS (0.75 Å) is closer to Fe(II) HS (0.78 Å) than Fe(II) LS (0.61 Å) [55], the spin-crossover from Fe(II) HS to Fe(II) LS becomes unfavorable, leading to a decrease of the spin transition temperature.…”

Section: Magnetic Propertiesmentioning

confidence: 81%

“…This phenomenon can be modulated by various physical and chemical stimulations (e.g., light, pressure, temperature, vapor molecule, and metal substitution), and it has potential for sensor and memory applications [14,15]. To control the spin-crossover behavior, the metal substitution effect on the spin-crossover behavior for some Fe II spin-crossover materials has been investigated [16][17][18][19][20][21][22][23][24][25].…”

Section: Introductionmentioning

confidence: 99%

Metal Substitution Effect on a Three-Dimensional Cyanido-Bridged Fe Spin-Crossover Network

2017

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Effect of Metal Dilution on the Thermal Spin Transition of [Fe_xZn_1–x(bapbpy)(NCS)₂]

Cited by 20 publications

References 36 publications

Highly Ordered, Self‐Assembled Monolayers of a Spin‐Crossover Complex with In‐Plane Interactions

Highly Ordered, Self‐Assembled Monolayers of a Spin‐Crossover Complex with In‐Plane Interactions

Variations to Spin Crossover in [FexZn(1−x)(Me1,3bpp)2(ClO4)2] molecular alloys examined by Magnetometry and Single Crystal X-Ray Diffraction

Metal Substitution Effect on a Three-Dimensional Cyanido-Bridged Fe Spin-Crossover Network

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