Hysteretic Three‐Step Spin Crossover in a Thermo‐ and Photochromic 3D Pillared Hofmann‐type Metal–Organic Framework
Identifieur interne : 005666 ( Main/Exploration ); précédent : 005665; suivant : 005667Hysteretic Three‐Step Spin Crossover in a Thermo‐ and Photochromic 3D Pillared Hofmann‐type Metal–Organic Framework
Auteurs : Natasha F. Sciortino [Australie] ; Katrin R. Scherl-Gruenwald [Australie] ; Guillaume Chastanet [France] ; Gregory J. Halder [États-Unis] ; Karena W. Chapman [États-Unis] ; Jean-François Létard [France] ; Cameron J. Kepert [Australie]Source :
- Angewandte Chemie [ 0044-8249 ] ; 2012-10-01.
English descriptors
- KwdEn :
- Angew, Angewandte zuschriften figure, Bond lengths, Bousseksou, Brief existence, Chem, Crossover, Crossover behavior, Dalton trans, Dpsme, Dpsme pillars, Financial support, Halder, Host framework, Hysteresis, Intermediate phases, Intermediate states, Kepert, Lattice, Lattice states, Magnetic data, Mater, Material exhibits tristability, Modulation peaks, Moubaraki, Neville, Pillared topology, Progressive decrease, Room temperature, Thermal dependence, Thermal hysteresis, Verlag gmbh.
- Teeft :
- Angew, Angewandte zuschriften figure, Bond lengths, Bousseksou, Brief existence, Chem, Crossover, Crossover behavior, Dalton trans, Dpsme, Dpsme pillars, Financial support, Halder, Host framework, Hysteresis, Intermediate phases, Intermediate states, Kepert, Lattice, Lattice states, Magnetic data, Mater, Material exhibits tristability, Modulation peaks, Moubaraki, Neville, Pillared topology, Progressive decrease, Room temperature, Thermal dependence, Thermal hysteresis, Verlag gmbh.
Abstract
Multistabilität wird bei einem Metall‐organischen Gerüstmaterial beobachtet, das einen einzigartigen dreistufigen Spin‐Crossover mit einer thermischen Hysterese von 20 K eingeht (siehe Bild). Der stufenweise Übergang ist mit einer dreistufigen Strukturänderung gekoppelt, die vier spezifische Strukturzustände definiert. Das Material zeigt außerdem einen reversiblen photoinduzierten Spin‐Crossover.
Url:
DOI: 10.1002/ange.201204387
Affiliations:
- Australie, France, États-Unis
- Aquitaine, Nouvelle-Aquitaine, Nouvelle-Galles du Sud
- Bordeaux, Sydney
- Université Bordeaux I, Université de Sydney
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- to stream Main, to step Merge: 005933
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Le document en format XML
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<front><div type="abstract">Multistabilität wird bei einem Metall‐organischen Gerüstmaterial beobachtet, das einen einzigartigen dreistufigen Spin‐Crossover mit einer thermischen Hysterese von 20 K eingeht (siehe Bild). Der stufenweise Übergang ist mit einer dreistufigen Strukturänderung gekoppelt, die vier spezifische Strukturzustände definiert. Das Material zeigt außerdem einen reversiblen photoinduzierten Spin‐Crossover.</div>
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