Polymer-assisted deposition of metal-oxide films

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Abstract

Metal oxides are emerging as important materials for their versatile properties such as high-temperature superconductivity, ferroelectricity, ferromagnetism, piezoelectricity and semiconductivity. Metal-oxide films are conventionally grown by physical and chemical vapour deposition1,2. However, the high cost of necessary equipment and restriction of coatings on a relatively small area have limited their potential applications. Chemical-solution depositions such as sol-gel are more cost-effective 3, but many metal oxides cannot be deposited and the control of stoichiometry is not always possible owing to differences in chemical reactivity among the metals. Here we report a novel process to grow metal-oxide films in large areas at low cost using polymer-assisted deposition (PAD), where the polymer controls the viscosity and binds metal ions, resulting in a homogeneous distribution of metal precursors in the solution and the formation of uniform metal-organic films. The latter feature makes it possible to grow simple and complex crack-free epitaxial metal-oxides.

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Jia, Q. X., McCleskey, T. M., Burrell, A. K., Lin, Y., Collis, G. E., Wang, H., … Foltyn, S. R. (2004). Polymer-assisted deposition of metal-oxide films. Nature Materials, 3(8), 529–532. https://doi.org/10.1038/nmat1163

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