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210512 ||| eng |
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|a 9783039213610
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|a books978-3-03921-362-7
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|a 9783039213627
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1 |
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|a Kitazawa, Takafumi
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|a Synthesis and Applications of New Spin Crossover Compounds
|h Elektronische Ressource
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260 |
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|b MDPI - Multidisciplinary Digital Publishing Institute
|c 2019
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300 |
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|a 1 electronic resource (254 p.)
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|a coordination polymer
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|a thermochromism
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|a dinuclear triple helicate
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|a hetero metal complex
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|a 2
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|a Fe(II)
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|a 57Fe Mössbauer spectroscopy
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|a dipyridyl-N-alkylamine ligands
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|a C-H···? interactions
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|a soft X-ray induced excited spin state trapping
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|a charge-transfer phase transition
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|a linear pentadentate ligand
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|a aminoxyl
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|a n/a
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|a phase transitions
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|a X-ray absorption spectroscopy
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|a LIESST effect
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|a spin polaron
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|a solvate
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|a solvent effects
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|a cobalt(II) ion
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|a supramolecular coordination polymer
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|a [Au(dmit)2]?
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|a paramagnetic ligand
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|a mosaicity
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|a ?-? interactions
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|a DFT calculation
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|a spin crossover
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|a dithiooxalato ligand
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|a SQUID
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|a spin-crossover
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|a Cu(II) complexes
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|a chiral propeller structure
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|a single crystal
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|a Fe(III) complex
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|a ferromagnetism
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|a substitution of 3d transition metal ion
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|a fatigability
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|a spin-crossover transition
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|a dielectric response
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|a ion-pair crystals
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|a spin transition
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|a iron mixed-valence complex
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|a low spin (LS)
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|a Fe(III) coordination complexes
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|a phase transition
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|a iron(II)
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|a magnetostructural correlations
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|a structural disorder
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|a impurity effect
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|a hexadentate ligand
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|a metal dithiolene complexes
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|a magnetic transition
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|a cobalt oxide
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|a 1
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|a supramolecular isomerism
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|a qsal ligand
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|a thermal hysteresis
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|a EPR spectroscopy
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|a switch
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|a hydrogen bonding
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|a magnetic susceptibility
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|a intermolecular interactions
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|a optical microscopy
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|a nitroxides
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|a iron(II) complexes
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|a spin-state crossover
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|a high spin (HS)
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|a crystal structure
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|a [Au(dddt)2]?
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|a mononuclear
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|a counter-anion
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|a coordination complexes
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|a high spin
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|a magnetic properties
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|a spin cross-over (SCO)
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|a magnetization
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|a Schiff base
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|a 2-bis(4-pyridyl)ethane
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|a optical conductivity spectrum
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|a X-ray diffraction
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|a spiral structure
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|a coordination polymers
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|a iron (II)
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|a [Fe(III)(3-OMesal2-trien)]+
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|a lattice energy
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|a amorphous
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|a structure phase transition
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|a Fe(II) complex
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|a atropisomerism
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|a 3-triazole
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|a reaction diffusion
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|a UV-Vis spectroscopy
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|a crystal engineering
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|a eng
|2 ISO 639-2
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|b DOAB
|a Directory of Open Access Books
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|a Creative Commons (cc), https://creativecommons.org/licenses/by-nc-nd/4.0/
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8 |
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|a 10.3390/books978-3-03921-362-7
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856 |
4 |
2 |
|u https://directory.doabooks.org/handle/20.500.12854/60409
|z DOAB: description of the publication
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|u https://www.mdpi.com/books/pdfview/book/1663
|7 0
|x Verlag
|3 Volltext
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|a 333
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|a 620
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|a The crystal chemistry of spin crossover (SCO) behavior in coordination compounds can potentially be in association with smart materials-promising materials for applications as components of memory devices, displays, sensors and mechanical devices and, especially, actuators, such as artificial muscles. This Special Issue is devoted to various aspects of SCO and related research, comprising 18 interesting original papers on valuable and important SCO topics. Significant and fundamental scientific attention has been focused on the SCO phenomena in a wide research range of fields of fundamental chemical and physical and related sciences, containing the interdisciplinary regions of chemical and physical sciences related to the SCO phenomena. Coordination materials with bistable systems between the LS and the HS states are usually triggered by external stimuli, such as temperature, light, pressure, guest molecule inclusion, soft X-ray, and nuclear decay. Since the first Hofmann-like spin crossover (SCO) behavior in {Fe(py)2[Ni(CN)4]}n (py = pyridine) was demonstrated, this crystal chemistry motif has been frequently used to design Fe(II) SCO materials to enable determination of the correlations between structural features and magnetic properties.
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