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Bifunctional nanoscale assemblies: multistate electrochromics coupled with charge trapping and release
摘要: We demonstrate controlled charge trapping and release, accompanied by multiple color changes in a metallo-organic bilayer. The dual functionality of the metallo-organic materials provides a fundamental insight into the metal-mediated electron transport pathways. The electrochemical processes are accompanied by distinct, four color–to–color transitions: red, transparent, orange, and brown. The bilayer consists of two elements: (i) a nanoscale gate consisting of a layer of well-defined polypyridyl ruthenium complexes bound to a flexible transparent electrode, and (ii) a charge storage layer consisting of isostructural iron complexes attached to the surface of the gate. This gate mediates or blocks electron transport in response to a voltage. The charge storage and release depend on the oxidation state of the layer of ruthenium complexes (= gate). Combining electrochemistry with optical data revealed mechanistic information: the brown coloration of the bilayer directly relates to the formation of intermediate ruthenium species, providing evidence for catalytic positive charge release mediated through the gate.
关键词: Thin films,Charge storage,Electrochromism,Metallo-organics,Electrochemistry
更新于2025-09-12 10:27:22
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Bifunctional nanoscale assemblies: multistate electrochromics coupled with charge trapping and release
摘要: We demonstrate controlled charge trapping and release, accompanied by multiple color changes in a metallo-organic bilayer. The dual functionality of the metallo-organic materials provides a fundamental insight into the metal-mediated electron transport pathways. The electrochemical processes are accompanied by distinct, four color–to–color transitions: red, transparent, orange, and brown. The bilayer consists of two elements: (i) a nanoscale gate consisting of a layer of well-defined polypyridyl ruthenium complexes bound to a flexible transparent electrode, and (ii) a charge storage layer consisting of isostructural iron complexes attached to the surface of the gate. This gate mediates or blocks electron transport in response to a voltage. The charge storage and release depend on the oxidation state of the layer of ruthenium complexes (= gate). Combining electrochemistry with optical data revealed mechanistic information: the brown coloration of the bilayer directly relates to the formation of intermediate ruthenium species, providing evidence for catalytic positive charge release mediated through the gate.
关键词: Thin films,Electrochromism,Metallo-organics,Electrochemistry,Charge storage
更新于2025-09-11 14:15:04