Publikation: Luminescent Dinuclear Chromium(III) Complexes with Ferromagnetic Exchange Interactions
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Recent advances with luminescent mononuclear chromium(III) complexes have provided important molecular design guidelines for enhancing their photoluminescence properties. Applying these modern aspects of coordination chemistry to dinuclear CrIII complexes, which are mostly not luminescent but show interesting magnetic properties, seems attractive for exploring functional coordination compounds with magnetic exchange interactions and light-induced activity. In this concept, the key structural requirements for dinuclear CrIII complexes with ferromagnetic exchange interactions and with photoluminescence properties, respectively, are analyzed. Rational merger of these key magneto-optical–structural correlations leads to new types of dinuclear CrIII complexes with ferromagnetic coupling and room temperature luminescence, and their photophysical properties make them promising photosensitizers for energy transfer. These design concepts open the door of exploring novel dinuclear CrIII complexes, which can allow the crosstalk of photophysics, photochemistry, and magnetic exchange interactions.
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FRITZLER, Dennis, Cui WANG, 2025. Luminescent Dinuclear Chromium(III) Complexes with Ferromagnetic Exchange Interactions. In: ChemPhotoChem. Wiley. eISSN 2367-0932. Verfügbar unter: doi: 10.1002/cptc.202500094BibTex
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title={Luminescent Dinuclear Chromium(III) Complexes with Ferromagnetic Exchange Interactions},
year={2025},
doi={10.1002/cptc.202500094},
journal={ChemPhotoChem},
author={Fritzler, Dennis and Wang, Cui}
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<dcterms:abstract>Recent advances with luminescent mononuclear chromium(III) complexes have provided important molecular design guidelines for enhancing their photoluminescence properties. Applying these modern aspects of coordination chemistry to dinuclear Cr<sup>III</sup> complexes, which are mostly not luminescent but show interesting magnetic properties, seems attractive for exploring functional coordination compounds with magnetic exchange interactions and light-induced activity. In this concept, the key structural requirements for dinuclear Cr<sup>III</sup> complexes with ferromagnetic exchange interactions and with photoluminescence properties, respectively, are analyzed. Rational merger of these key magneto-optical–structural correlations leads to new types of dinuclear Cr<sup>III</sup> complexes with ferromagnetic coupling and room temperature luminescence, and their photophysical properties make them promising photosensitizers for energy transfer. These design concepts open the door of exploring novel dinuclear Cr<sup>III</sup> complexes, which can allow the crosstalk of photophysics, photochemistry, and magnetic exchange interactions.</dcterms:abstract>
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