Themed collection Recent progress and perspectives on spin transition compounds

57 items
Editorial

Introduction to the Dalton Transactions themed collection: recent progress and perspectives on spin transition compounds

Guest editors Shinya Hayami, Birgit Weber and Malcolm Halcrow introduce the Dalton Transactions themed collection on spin transitions.

Graphical abstract: Introduction to the Dalton Transactions themed collection: recent progress and perspectives on spin transition compounds
Open Access Communication

Water stable colloidal PVP coated spin crossover nanoparticles

An effective experimental method is presented for preparing PVP-coated NPs presenting stable aqueous colloidal dispersions and hysteretic SCO behavior close to RT, which is essential for future drug delivery and MRI-bioimaging perspectives.

Graphical abstract: Water stable colloidal PVP coated spin crossover nanoparticles
Communication

Spin crossover {[Fe(atrz)3](OTs)2}n monolith: a green synthesis approach for Robust switchable materials

We report a room-temperature synthesis of a {[Fe(atrz)3](OTs)2}n monolith following the green chemistry principles. This material exhibits a gradual spin crossover transition compared to bulk material, aligning with observations in smaller particles.

Graphical abstract: Spin crossover {[Fe(atrz)3](OTs)2}n monolith: a green synthesis approach for Robust switchable materials
Open Access Communication

Soma–Iwamoto-type SCO complex Fe(quinazoline)2[Au(CN)2]2 using the quinazoline-type ligand

We have synthesized Fe(quinazoline)2[Au(CN)2]2 (1). Complex 1 shows the Soma–Iwamoto-type bilayer and a spin-crossover (SCO) phenomenon. Mononuclear complex with a hydrogen-bonding network Fe(H2O)2(quinazoline)2[Au(CN)2]2 has also been obtained.

Graphical abstract: Soma–Iwamoto-type SCO complex Fe(quinazoline)2[Au(CN)2]2 using the quinazoline-type ligand
Communication

Thermal and protonation-induced electron transfer coupled spin transition in a discrete [Fe2Co3] Prussian blue analogue

The work presents a rationally designed cyanide bridged [Fe2Co3] pentanuclear complex integrated with protonation sites, where the electronic states can be triggered by both thermal and chemical stimuli. This provides a promising approach for multi-stimuli responsive switchable molecular materials.

Graphical abstract: Thermal and protonation-induced electron transfer coupled spin transition in a discrete [Fe2Co3] Prussian blue analogue
Open Access Communication

Simultaneous manipulation of iron(II) spin crossover and LIESST behaviour using pressure, temperature and light

Single-crystal X-ray diffraction studies of a spin crossover coordination polymer under simultaneous control of temperature, pressure, and light.

Graphical abstract: Simultaneous manipulation of iron(ii) spin crossover and LIESST behaviour using pressure, temperature and light
Communication

A tetravalent praseodymium complex with field-induced slow magnetic relaxation

A tetravalent praseodymium complex with field-induced slow magnetic relaxation is presented.

Graphical abstract: A tetravalent praseodymium complex with field-induced slow magnetic relaxation
Paper

Light-induced spin-state switching in heterospin complexes of Cu(hfac)2 with pyridine-based nitroxides

Photoswitching in copper(II)–nitroxide spin dyads with varying alkyl substituent lengths (Cn) has been studied using EPR spectroscopy, revealing the dependence of switching efficiency on Cn in these molecular magnets.

Graphical abstract: Light-induced spin-state switching in heterospin complexes of Cu(hfac)2 with pyridine-based nitroxides
Paper

Spin crossover FeIII complexes with a substituted Hqnal ligand: effects of anions and solvents

Four FeIII complexes of the Hqnal-5-Brq ligand have been characterized, marking them as the first examples of FeIII SCO complexes with a quinoline-substituted Hqnal ligand. The effects of anions and solvents on their SCO properties were assessed.

Graphical abstract: Spin crossover FeIII complexes with a substituted Hqnal ligand: effects of anions and solvents
Paper

Substituent effects on spin-crossover Fe(II)N4O2 pyrenylhydrazone complexes

By varying the substituents on the pyrenylhydrazone ligands, fluorescent Fe(II)N4O2 complexes show high spin, low spin or spin crossover (SCO) properties.

Graphical abstract: Substituent effects on spin-crossover Fe(ii)N4O2 pyrenylhydrazone complexes
Paper

Four-step electron transfer coupled spin transition in a cyano-bridged [Fe2Co2] square complex

Four-step electron transfer coupled spin transition was achieved in a cyano-bridged [Fe2Co2] square complex.

Graphical abstract: Four-step electron transfer coupled spin transition in a cyano-bridged [Fe2Co2] square complex
From the themed collection: Dalton Transactions HOT Articles
Paper

Investigating the influence of oriented external electric fields on modulating spin-transition temperatures in Fe(II) SCO complexes: a theoretical perspective

Oriented external electric fields induce spin crossover in Fe(II) complexes, offering a novel pathway for temperature tuning, with potential applications in molecular electronics and sensing.

Graphical abstract: Investigating the influence of oriented external electric fields on modulating spin-transition temperatures in Fe(ii) SCO complexes: a theoretical perspective
From the themed collection: Dalton Transactions HOT Articles
Paper

Tuning the spin-crossover properties of [Fe2] metal–organic cages

Electronic structure calculations on dinuclear Fe(II) spin-crossover systems unravel the effects that guest molecules have on tuning the transition temperature and the single or two-step behavior transition in such systems.

Graphical abstract: Tuning the spin-crossover properties of [Fe2] metal–organic cages
Paper

Spin crossover of a Fe(II) mononuclear complex induced by intermolecular factors involving chloride and solvent ordering

Spin transition induced by chloride in a mononuclear tripodal Fe(II) complex.

Graphical abstract: Spin crossover of a Fe(ii) mononuclear complex induced by intermolecular factors involving chloride and solvent ordering
Paper

Above room temperature spin crossover in mononuclear iron(II) complexes featuring pyridyl-benzimidazole bidentate ligands adorned with aliphatic chains

The alkylated derivatives of bidentate pyridyl-benzimidazole ligands were employed in the synthesis of SCO active ferrous complexes, which were specifically designed for the preparation of molecular films.

Graphical abstract: Above room temperature spin crossover in mononuclear iron(ii) complexes featuring pyridyl-benzimidazole bidentate ligands adorned with aliphatic chains
Paper

Orthogonal magnetic orbitals in high spin Cu–VO units: structure, magnetism and EPR study of anisotropic heterometallic complexes

High spin Cu–V units with orthogonal magnetic orbitals and anisotropy of a coupled system.

Graphical abstract: Orthogonal magnetic orbitals in high spin Cu–VO units: structure, magnetism and EPR study of anisotropic heterometallic complexes
Open Access Paper

Investigation of the spin crossover behaviour of a sublimable Fe(II)-qsal complex: from the bulk to a submonolayer on graphene/SiO2

Spin crossover Fe(II) molecules deposited on graphene/SiO2 as a submonolayer present a switching behavior within the whole temperature range from 350 to 4 K.

Graphical abstract: Investigation of the spin crossover behaviour of a sublimable Fe(ii)-qsal complex: from the bulk to a submonolayer on graphene/SiO2
From the themed collection: Dalton Transactions HOT Articles
Open Access Paper

Accurate state energetics in spin-crossover systems using pure density functional theory

The outstanding challenge of the calculation of the energy difference between different spin states is targeted with a new family of KTBM functionals.

Graphical abstract: Accurate state energetics in spin-crossover systems using pure density functional theory
Open Access Paper

Spin dynamics phenomena of a cerium(III) double-decker complex induced by intramolecular electron transfer

By applying the IET to the spin dynamics of Ce porphyrinoid-based complexes, it is possible to investigate the effects of dynamic disorder on SMM properties.

Graphical abstract: Spin dynamics phenomena of a cerium(iii) double-decker complex induced by intramolecular electron transfer
Paper

Iron(II) spin crossover complexes of tetradentate Schiff-bases: tuning T1/2 by choice of formyl-heterocycle component

Heterocycle choice in four structurally characterised solvent-free [FeII(Lheterocycle)(NCS)2] complexes of easily accessed Schiff base ligands strongly influences solid state spin crossover behaviour.

Graphical abstract: Iron(ii) spin crossover complexes of tetradentate Schiff-bases: tuning T1/2 by choice of formyl-heterocycle component
Open Access Paper

Lattice solvent- and substituent-dependent spin-crossover in isomeric iron(II) complexes

Studies on iron(II) complexes composed of isomeric ligands reveal that one of the complexes—1·CH3CN—undergoes bi-stable spin-state switching with T1/2 = 298 K and ΔT1/2 = 44 K.

Graphical abstract: Lattice solvent- and substituent-dependent spin-crossover in isomeric iron(ii) complexes
Open Access Paper

Chiral spin-crossover complexes based on an enantiopure Schiff base ligand with three chiral carbon centers

Four enantiopure spin-crossover complexes have been prepared in which the unexpected incorporation of acetone leads to an additional chiral center.

Graphical abstract: Chiral spin-crossover complexes based on an enantiopure Schiff base ligand with three chiral carbon centers
Open Access Paper

Light-induced spin-state switching in Fe(II) spin-crossover complexes with thiazole-based chelating ligands

Three homoleptic Fe(II) complexes with bidentate thiazole-based ligands exhibit spin-crossover (SCO) at the metal center. Abrupt temperature-driven and light-induced spin transitions are observed due to cooperative interactions between SCO cations.

Graphical abstract: Light-induced spin-state switching in Fe(ii) spin-crossover complexes with thiazole-based chelating ligands
Open Access Paper

A combined theoretical and experimental approach to determine the right choice of co-ligand to impart spin crossover in Fe(II) complexes based on 1,3,4-oxadiazole ligands

It is discussed why for the Fe(II) complexes [Fe(LTetra-Py/Ph-ODA)(NCE)] with E = S, Se and BH3 only the latter revealed SCO.

Graphical abstract: A combined theoretical and experimental approach to determine the right choice of co-ligand to impart spin crossover in Fe(ii) complexes based on 1,3,4-oxadiazole ligands
Paper

Magnetoelectric and MIESST effects in spin crossover materials exhibiting symmetry-breaking

Magnetoelectric coupling and magnetic-field-induced spin state trapping (MIESST) phenomena are discussed in the framework of a model based on the Landau theory for spin crossover materials with polar phases.

Graphical abstract: Magnetoelectric and MIESST effects in spin crossover materials exhibiting symmetry-breaking
Open Access Paper

Spin crossover in dinuclear iron(II) complexes bridged by bis-bipyridine ligands: dimer effects on electronic structure, spectroscopic properties and spin-state switching

Two bipyridine-based bisbidentate ligands with an ethynyl- and a dimethoxy-phenylene bridge, respectively, are used to bridge two [Fe(H2B(pz)2)2] units (pz = pyrazolyl), leading to charge-neutral dinuclear iron(II) compounds.

Graphical abstract: Spin crossover in dinuclear iron(ii) complexes bridged by bis-bipyridine ligands: dimer effects on electronic structure, spectroscopic properties and spin-state switching
Open Access Paper

Thermodynamics of spin crossover in a bis(terpyridine) cobalt(II) complex featuring a thioether functionality

A new cobalt(II) complex featuring a terpyridine ligand functionalized with a thioether group has been prepared, structurally and magnetically characterized, and the thermodynamics of its spin crossover behaviour investigated in solution.

Graphical abstract: Thermodynamics of spin crossover in a bis(terpyridine) cobalt(ii) complex featuring a thioether functionality
Open Access Paper

Self-assembly of a supramolecular spin-crossover tetrahedron

A new mononuclear iron(II) SCO compound featuring H-bonding donor and acceptor units provides an entry to a purely supramolecular switchable {Fe4} tetrahedron that exhibits a singular magnetic behavior for each of the four Fe(II) centers.

Graphical abstract: Self-assembly of a supramolecular spin-crossover tetrahedron
Open Access Paper

Spin-crossover cobalt(II) complexes exhibiting temperature- and concentration-dependent optical changes in solution

Terpyridine-based cobalt(II) complexes with dynamic amine substituents have been found to exhibit not only solid-state spin-crossover behavior but also spectral changes associated with spin-state change in various organic solvents.

Graphical abstract: Spin-crossover cobalt(ii) complexes exhibiting temperature- and concentration-dependent optical changes in solution
Open Access Paper

Binucleating Jäger-type {(N2O2)2}4− ligands: magnetic and electronic interactions of Fe(II), Ni(II) and Cu(II) across an in-plane TTF-bridge

The simultaneous presence of different electrophores provides an interesting playground for responsive materials.

Graphical abstract: Binucleating Jäger-type {(N2O2)2}4− ligands: magnetic and electronic interactions of Fe(ii), Ni(ii) and Cu(ii) across an in-plane TTF-bridge
Paper

Valence tautomeric interconversion of bis-dioxolene cobalt complex with imino-pyridine functionalized by TEMPO moiety in solid solutions with isostructural nickel analogue: phase transitions and monocrystal destruction

Valence tautomeric interconversion taking place in the solid solutions of the cobalt complex in the inert nickel matrix maintains the hysteresis loop. All the crystals destruct upon cooling down to the transition temperature.

Graphical abstract: Valence tautomeric interconversion of bis-dioxolene cobalt complex with imino-pyridine functionalized by TEMPO moiety in solid solutions with isostructural nickel analogue: phase transitions and monocrystal destruction
Open Access Paper

Unlocking room-temperature bistable spin transition at the nanoscale: the synthesis of core@shell [Fe(NH2trz)3(NO3)2]@SiO2 nanoparticles

In this study, we synthesize silica-coated core@shell nanoparticles based on the relatively unexplored [Fe(NH2trz)3](NO3)2. This enables the fabrication of water-stable spin-crossover nanoparticles exhibiting spin transition at room temperature.

Graphical abstract: Unlocking room-temperature bistable spin transition at the nanoscale: the synthesis of core@shell [Fe(NH2trz)3(NO3)2]@SiO2 nanoparticles
Paper

Design and characterization of Fe(II) complexes with tetradentate ligands exhibiting spin-crossover near room temperature

Fe(II) complexes with a customized N4 ligand exhibit spin-crossover near room temperature, suitable for molecular switch applications.

Graphical abstract: Design and characterization of Fe(ii) complexes with tetradentate ligands exhibiting spin-crossover near room temperature
Paper

Quantification of the thermodynamic effects of the low-spin – high-spin interaction in molecular crystals of a mononuclear iron(II) spin crossover complex.

A method is proposed to estimate the thermodynamic effects of neighbouring molecules on the spin transition of a mononuclear complex.

Graphical abstract: Quantification of the thermodynamic effects of the low-spin – high-spin interaction in molecular crystals of a mononuclear iron(ii) spin crossover complex.
Open Access Paper

Rotational order–disorder and spin crossover behaviour in a neutral iron(II) complex based on asymmetrically substituted large planar ionogenic ligand

Room temperature spin crossover behaviour and LIESST effect synchronised with order–disorder at the 2-fluorophenyl substituent in a new neutral mononuclear FeII complex based on an asymmetric ionogenic tridentate planar ligand.

Graphical abstract: Rotational order–disorder and spin crossover behaviour in a neutral iron(ii) complex based on asymmetrically substituted large planar ionogenic ligand
Open Access Paper

Hydrogen-bonded assemblies of iron(II) spin crossover complexes

Dehydration induces spin crossover in hydrogen-bonded metal–organic frameworks such as [Fe(bpp)2](ADC)·9H2O, a compound showing large channels of a Wheel-of-Mainz shape.

Graphical abstract: Hydrogen-bonded assemblies of iron(ii) spin crossover complexes
Open Access Paper

Spectroscopic and thermodynamic characterization of a cobalt-verdazyl valence tautomeric system. influence of crystal structure, solvent and counterion

Valence tautomerization in the cobalt bis verdazyl system [Co(dipyvd)2]2+ is associated with large ligand geometry changes. As a result the equilibrium is strongly dependent on intermolecular interaction in both solid and solution phases.

Graphical abstract: Spectroscopic and thermodynamic characterization of a cobalt-verdazyl valence tautomeric system. influence of crystal structure, solvent and counterion
Paper

Guest water-induced structural transformation and spin-crossover variation of a two-dimensional Hofmann-type compound

A two-dimensional Hofmann-type coordination polymer [FeII(o-NTrz)2PtII(CN)4]·H2O (o-NTrz = 4-(o-nitrobenzyl)imino-1,2,4-triazole) shows changes in spin-crossover behavior due to the loss of water molecules and consequent rotation of ligand o-NTrz.

Graphical abstract: Guest water-induced structural transformation and spin-crossover variation of a two-dimensional Hofmann-type compound
Paper

Memory effect in ferroelectric polyvinylidene fluoride (PVDF) films via spin crossover probes

A composite film combining a ferroelectric organic polymer with a spin crossover coordination polymer exhibits memory effect in their ferroelectric properties, with the appearance of thermal hysteresis in electric polarization and coercivity.

Graphical abstract: Memory effect in ferroelectric polyvinylidene fluoride (PVDF) films via spin crossover probes
Paper

Two-dimensional spin-crossover coordination polymers based on the 1,1,2,2-tetra(pyridin-4-yl)ethene ligand

Spin-crossover behaviors and guest effects were investigated in three Fe(II) two-dimensional coordination polymers based on the 1,1,2,2-tetra(pyridin-4-yl)ethene ligand.

Graphical abstract: Two-dimensional spin-crossover coordination polymers based on the 1,1,2,2-tetra(pyridin-4-yl)ethene ligand
Paper

Exploring spin states and ligand field splitting in metal complexes: a theoretical analysis of spin–orbital interactions and magnetic properties

2D Spectrochemical series for predicting a magnitude of the ligand field splitting in six-coordinated octahedral metal complexes ML6.

Graphical abstract: Exploring spin states and ligand field splitting in metal complexes: a theoretical analysis of spin–orbital interactions and magnetic properties
Open Access Paper

Spin crossover in {Fe(pyrazine)[M(CN)4]} (M = Ni, Pt) thin films assembled on fused silica substrates

Thin films of the spin crossover compound {Fe(pyrazine)[μ4-M(CN)4]} (M = Ni, Pt) have been deposited on transparent fused silica substrates using a sequential assembly method with a scope for photonic and (opto)electronic applications.

Graphical abstract: Spin crossover in {Fe(pyrazine)[M(CN)4]} (M = Ni, Pt) thin films assembled on fused silica substrates
Open Access Paper

Activating a high-spin iron(II) complex to thermal spin-crossover with an inert non-isomorphous molecular dopant

[Fe(bpp)2][ClO4]2 (bpp = 2,6-bis{pyrazol-1-yl}pyridine; monoclinic, C2/c) is high-spin between 5–300 K, and crystallises with a highly distorted molecular geometry that lies along the octahedral–trigonal prismatic distortion pathway.

Graphical abstract: Activating a high-spin iron(ii) complex to thermal spin-crossover with an inert non-isomorphous molecular dopant
Paper

Reversible structural change of [Co2Fe2] complexes between diamagnetic hydrogen-bonded 1D chains and paramagnetic complexes within a layered structure of amphiphilic anions

In an alternating layered structure of an amphiphilic anion, the electron transfer-coupled spin transition of a [Co2Fe2] complex causes a reversible structural change between the hydrogen-bonded 1D chains and discrete complexes.

Graphical abstract: Reversible structural change of [Co2Fe2] complexes between diamagnetic hydrogen-bonded 1D chains and paramagnetic complexes within a layered structure of amphiphilic anions
Paper

Expanding the dimensionality of bis(tetrazolyl)alkane-based Fe(II) coordination polymers by the application of dinitrile coligands

Di(tetrazolyl)alkanes form with Fe(II) chains or layers which can be extended into spin-crossover 2D and 3D networks by applying dinitriles.

Graphical abstract: Expanding the dimensionality of bis(tetrazolyl)alkane-based Fe(ii) coordination polymers by the application of dinitrile coligands
Open Access Paper

Room temperature spin crossover properties in a series of mixed-anion Fe(NH2trz)3(BF4)2−x(SiF6)x/2 complexes

A series of mixed-anion Fe(NH2trz)3(BF4)2−x(SiF6)x/2 complexes presenting abrupt spin crossover behaviour with a narrow hysteresis loop just above room temperature is obtained by coordination reaction or solid–liquid post synthetic modification.

Graphical abstract: Room temperature spin crossover properties in a series of mixed-anion Fe(NH2trz)3(BF4)2−x(SiF6)x/2 complexes
Open Access Paper

Mononuclear Fe(III) complexes with 2,4-dichloro-6-((quinoline-8-ylimino)methyl)phenolate: synthesis, structure, and magnetic behavior

We synthesized three Fe(III) mononuclear complexes and investigated the effects of the functional group of qsal ligands and anions on spin crossover behaviors and the relaxation times of T1 and T2 in DMF solution.

Graphical abstract: Mononuclear Fe(iii) complexes with 2,4-dichloro-6-((quinoline-8-ylimino)methyl)phenolate: synthesis, structure, and magnetic behavior
Paper

Impact of flexible hexyl chain ordering in a mononuclear spin crossover iron(III) complex

Temperature-dependent variation of flexible hexyl groups in an iron(III) complex influences cation-to-cation and cation-to-anion interactions, leading to an unusual two-step SCO transition in the 400–10 K temperature range.

Graphical abstract: Impact of flexible hexyl chain ordering in a mononuclear spin crossover iron(iii) complex
Paper

Solvation/desolvation induced reversible distortion change and switching between spin crossover and single molecular magnet behaviour in a cobalt(II) complex

The cobalt(II) compound [Co(MeOphterpy)2](ClO4)2 shows reversible switching between SCO and SMM properties depending on solvation or desolvation.

Graphical abstract: Solvation/desolvation induced reversible distortion change and switching between spin crossover and single molecular magnet behaviour in a cobalt(ii) complex
Paper

Nature of cyanoargentate bridges defining spin crossover in new 2D Hofmann clathrate analogues

Chemical composition is leading among the numerous factors that determine the spin transition properties of coordination compounds.

Graphical abstract: Nature of cyanoargentate bridges defining spin crossover in new 2D Hofmann clathrate analogues
Open Access Paper

Low-spin to low-spin valence tautomeric transition in cobalt bis-dioxolenes

Intramolecular electron transfer without accompanying spin-crossover in cobalt bis-dioxolenes has been observed for the first time.

Graphical abstract: Low-spin to low-spin valence tautomeric transition in cobalt bis-dioxolenes
Paper

Tuning valence tautomerism in a family of dinuclear cobalt complexes incorporating a conjugated bridging bis(dioxolene) ligand with weak communication

Judicious pairing of ancillary and redox-active ligands affords thermally-induced two-step valence tautomerism for a dinuclear cobalt complex bridged by a conjugated bis(dioxolene) ligand.

Graphical abstract: Tuning valence tautomerism in a family of dinuclear cobalt complexes incorporating a conjugated bridging bis(dioxolene) ligand with weak communication
Open Access Paper

Photo-induced valence tautomerism and polarization switching in mononuclear cobalt complexes with an enantiopure chiral ligand

We report the discovery of a novel valence tautomeric cobalt mononuclear compound with a chiral ligand, which enhances the efficiency of light-induced polarization switching.

Graphical abstract: Photo-induced valence tautomerism and polarization switching in mononuclear cobalt complexes with an enantiopure chiral ligand
Paper

X-ray crystallographic analysis of the antiferromagnetic low-temperature phase of galvinoxyl: investigating magnetic duality in organic radicals

Crystal structure of the low-temperature phase of galvinoxyl consists of a radical dimer with a significant overlap between the SOMOs.

Graphical abstract: X-ray crystallographic analysis of the antiferromagnetic low-temperature phase of galvinoxyl: investigating magnetic duality in organic radicals
Paper

Spin-state versatility in FeII4L6 supramolecular cages with a pyridyl-hydrazone ligand scaffold modulated by solvents and counter anions

Discrete spin crossover (SCO) tetranuclear cages are a unique class of materials that have potential use in next-generation molecular recognition and sensing.

Graphical abstract: Spin-state versatility in FeII4L6 supramolecular cages with a pyridyl-hydrazone ligand scaffold modulated by solvents and counter anions
Paper

Exploring a prototype for cooperative structural phase transition in cobalt(II) spin crossover compounds

Four structurally related Co(II) spin crossover compounds were prepared, which revealed that combining a rigid polymeric framework with flexible substituents may constitute to a prototype for cooperative SPT in cobalt(II) SCO systems.

Graphical abstract: Exploring a prototype for cooperative structural phase transition in cobalt(ii) spin crossover compounds
Paper

Improving spin crossover characteristics in heteroleptic [FeIII(qsal-5-I)(qsal-5-OMe)]A complexes

Heteroleptic iron(III) spin crossover complexes are reported with one of the compounds exhibiting a strongly hysteretic spin crossover that is superior to the homoleptic complexes.

Graphical abstract: Improving spin crossover characteristics in heteroleptic [FeIII(qsal-5-I)(qsal-5-OMe)]A complexes
57 items

About this collection

The passing of Prof. Philipp Gütlich in September 2022, which is a great loss to the community of spin transition, has urged us to review the current status and development of this field. It was realized that, in many cases, the concept of spin transition is considered of secondary importance within the topics of molecule-based materials and molecular magnetism. Studies of spin transition, especially from the next generation of scientists, have yet to receive the attention they are due. These facts motivated us to produce this special issue which focuses on research of spin transition phenomena in a broad sense, including spin-crossover (SCO), valence tautomerism (VT), electron transfer (ET) and any other related topics. This themed collection showcases the recent progress and new viewpoints of spin transition materials from the perspective of compound synthesis, physical properties, and applications.

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