2014
DOI: 10.1039/c3cc48834a
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Chirality meets visible-light photocatalysis in a molecular cerium vanadium oxide cluster

Abstract: The first example of a molecular cerium vanadium oxide photocatalyst is presented. A cerium vanadium oxide cluster, (nBu 4 N) 2 - [(Ce(dmso)

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Cited by 55 publications
(42 citation statements)
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“… Structural representation of the cation‐stabilized POMs {Bi 6 Fe 13 } , {Bi 4 V 13 }, and {Ce 2 V 12 } described in Section 2.1; {Ce 2 V 12 } =[(Ce(dmso) 3 ) 2 V IV V V 11 O 33 Cl] 2− …”
Section: Inorganic Cation–pom Materials: Structure‐induced Functionsmentioning
confidence: 99%
“… Structural representation of the cation‐stabilized POMs {Bi 6 Fe 13 } , {Bi 4 V 13 }, and {Ce 2 V 12 } described in Section 2.1; {Ce 2 V 12 } =[(Ce(dmso) 3 ) 2 V IV V V 11 O 33 Cl] 2− …”
Section: Inorganic Cation–pom Materials: Structure‐induced Functionsmentioning
confidence: 99%
“… Strukturdarstellung der kationenstabilisierten POMs {Bi 6 Fe 13 } , {Bi 4 V 13 } und {Ce 2 V 12 } , beschrieben in Abschnitt 2.1; {Ce 2 V 12 } =[(Ce(dmso) 3 ) 2 V IV V V 11 O 33 Cl] 2− …”
Section: Anorganische Kation‐pom‐materialien: Von Der Struktur Zur Fuunclassified
“…Dies zeigt, dass die Stabilisierung von POM‐Clustern durch große Metallkationen von breiter Bedeutung für die POM‐Chemie sein könnte. Weitere Belege hierfür liefern kürzlich veröffentlichte Studien, die neuartige Vanadatcluster durch Koordination von Ce 3+ ‐Kationen an freie Bindungsstellen demonstrieren . Zum Schluss sei angemerkt, dass sowohl {Bi 6 Fe 13 } als auch {La 4 Mo 12 } Metall‐Oxo‐Kationen darstellen – wir werden auf diese Verbindungsklasse in Abschnitt 4 zurückkommen.…”
Section: Anorganische Kation‐pom‐materialien: Von Der Struktur Zur Fuunclassified
“…6,7 This approach can also be extended to the development of POM photocatalysts, 14,15 as the electronic properties of the clusters (and therefore their visible-light photoactivity) are controlled by the underlying cluster structure. [21][22][23][24][25][26] Based on this concept, functionalization routes were developed where selective metal substitution is used to photosensitize clusters in the visible region. 23,24,26,27 Thus far, the concept of metal-substituted POM photocatalysts has mainly been focused on Keggin derivatives [XM 12 O 40 ] n− (M = V, Mo, W) 28,29 whereas the development of other heterometallic, photoactive POM clusters is still in its infancy.…”
Section: Introductionmentioning
confidence: 99%
“…[21][22][23][24][25][26] Based on this concept, functionalization routes were developed where selective metal substitution is used to photosensitize clusters in the visible region. 23,24,26,27 Thus far, the concept of metal-substituted POM photocatalysts has mainly been focused on Keggin derivatives [XM 12 O 40 ] n− (M = V, Mo, W) 28,29 whereas the development of other heterometallic, photoactive POM clusters is still in its infancy. 30,31 Based on this background, we started to investigate small prototype clusters 24 where selective metal exchange can be used to tune the electronic cluster properties whilst retaining the physical cluster architecture.…”
Section: Introductionmentioning
confidence: 99%