Please use this identifier to cite or link to this item: https://doi.org/10.1039/b609630a
Title: A single-molecular pathway from heterometallic MM′ (M = Ba II, MnII; M′ = CrIII) oxalato complexes to intermetallic composite oxides
Authors: Neo, K.E.
Ong, Y.Y.
Huynh, H.V. 
Hor, T.S.A. 
Issue Date: 2007
Citation: Neo, K.E., Ong, Y.Y., Huynh, H.V., Hor, T.S.A. (2007). A single-molecular pathway from heterometallic MM′ (M = Ba II, MnII; M′ = CrIII) oxalato complexes to intermetallic composite oxides. Journal of Materials Chemistry 17 (10) : 1002-1006. ScholarBank@NUS Repository. https://doi.org/10.1039/b609630a
Abstract: Thermolysis of {(n-C4H9)4N[Mn iiCriii(C2O4)3]} n, 1 at 500 °C for 10 h gives spinel Mn1.5Cr 1.5O4 which was characterized by powder XRD, SEM, FTIR and elemental analysis. The thermal conversion occurs by an internal redox process at ca. 400 °C in one step (TGA). It offers an alternative molecular source for an intermetallic oxide. Thermolysis of {[Baii 6(H 2O)17][Criii(C2O4) 3]4}·7H2O, 2 under similar conditions gives a mixture of BaiiCrviO4 and Ba iiCO3. These results suggested that the oxalate ligand in a heterometallic complex may be a convenient source for oxides in intermetallic composites and that, under suitable conditions, both metals in the heterometallic complexes can be transferred to the intermetallic oxides. It suggested that composite metal oxides can be generated from hetero- and inter-metallic oxalato complexes at relatively low temperatures, which could serve as a convenient route for the preparation of technologically important composites. © The Royal Society of Chemistry 2007.
Source Title: Journal of Materials Chemistry
URI: http://scholarbank.nus.edu.sg/handle/10635/93008
ISSN: 09599428
DOI: 10.1039/b609630a
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