Double-Sided Electrochromic Device Based on Metal-Organic Frameworks.
Identifieur interne : 000052 ( PubMed/Corpus ); précédent : 000051; suivant : 000053Double-Sided Electrochromic Device Based on Metal-Organic Frameworks.
Auteurs : Issam Mjejri ; Cara M. Doherty ; Marta Rubio-Martinez ; Glenna L. Drisko ; Aline RougierSource :
- ACS applied materials & interfaces [ 1944-8252 ] ; 2017.
Abstract
Devices displaying controllably tunable optical properties through an applied voltage are attractive for smart glass, mirrors, and displays. Electrochromic material development aims to decrease power consumption while increasing the variety of attainable colors, their brilliance, and their longevity. We report the first electrochromic device constructed from metal organic frameworks (MOFs). Two MOF films, HKUST-1 and ZnMOF-74, are assembled so that the oxidation of one corresponds to the reduction of the other, allowing the two sides of the device to simultaneously change color. These MOF films exhibit cycling stability unrivaled by other MOFs and a significant optical contrast in a lithium-based electrolyte. HKUST-1 reversibly changed from bright blue to light blue and ZnMOF-74 from yellow to brown. The electrochromic device associates the two MOF films via a PMMA-lithium based electrolyte membrane. The color-switching of these MOFs does not arise from an organic-linker redox reaction, signaling unexplored possibilities for electrochromic MOF-based materials.
DOI: 10.1021/acsami.7b13647
PubMed: 29043775
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pubmed:29043775Le document en format XML
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<author><name sortKey="Doherty, Cara M" sort="Doherty, Cara M" uniqKey="Doherty C" first="Cara M" last="Doherty">Cara M. Doherty</name>
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<author><name sortKey="Rubio Martinez, Marta" sort="Rubio Martinez, Marta" uniqKey="Rubio Martinez M" first="Marta" last="Rubio-Martinez">Marta Rubio-Martinez</name>
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<author><name sortKey="Drisko, Glenna L" sort="Drisko, Glenna L" uniqKey="Drisko G" first="Glenna L" last="Drisko">Glenna L. Drisko</name>
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<front><div type="abstract" xml:lang="en">Devices displaying controllably tunable optical properties through an applied voltage are attractive for smart glass, mirrors, and displays. Electrochromic material development aims to decrease power consumption while increasing the variety of attainable colors, their brilliance, and their longevity. We report the first electrochromic device constructed from metal organic frameworks (MOFs). Two MOF films, HKUST-1 and ZnMOF-74, are assembled so that the oxidation of one corresponds to the reduction of the other, allowing the two sides of the device to simultaneously change color. These MOF films exhibit cycling stability unrivaled by other MOFs and a significant optical contrast in a lithium-based electrolyte. HKUST-1 reversibly changed from bright blue to light blue and ZnMOF-74 from yellow to brown. The electrochromic device associates the two MOF films via a PMMA-lithium based electrolyte membrane. The color-switching of these MOFs does not arise from an organic-linker redox reaction, signaling unexplored possibilities for electrochromic MOF-based materials.</div>
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<Abstract><AbstractText>Devices displaying controllably tunable optical properties through an applied voltage are attractive for smart glass, mirrors, and displays. Electrochromic material development aims to decrease power consumption while increasing the variety of attainable colors, their brilliance, and their longevity. We report the first electrochromic device constructed from metal organic frameworks (MOFs). Two MOF films, HKUST-1 and ZnMOF-74, are assembled so that the oxidation of one corresponds to the reduction of the other, allowing the two sides of the device to simultaneously change color. These MOF films exhibit cycling stability unrivaled by other MOFs and a significant optical contrast in a lithium-based electrolyte. HKUST-1 reversibly changed from bright blue to light blue and ZnMOF-74 from yellow to brown. The electrochromic device associates the two MOF films via a PMMA-lithium based electrolyte membrane. The color-switching of these MOFs does not arise from an organic-linker redox reaction, signaling unexplored possibilities for electrochromic MOF-based materials.</AbstractText>
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<KeywordList Owner="NOTNLM"><Keyword MajorTopicYN="N">HKUST-1</Keyword>
<Keyword MajorTopicYN="N">color switching</Keyword>
<Keyword MajorTopicYN="N">device</Keyword>
<Keyword MajorTopicYN="N">electrochromism</Keyword>
<Keyword MajorTopicYN="N">metal−organic frameworks</Keyword>
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