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Article Abstract
Mesoporous metal oxides exhibit excellent physicochemical properties and are widely used in various fields, including energy storage/conversion, catalysis, and sensors. Although several soft-template approaches are reported, high-temperature calcination for both metal oxide formation and template removal is necessary, which limits direct synthesis on a plastic substrate for flexible devices. Here, a universal synthetic approach that combines thermal activation and oxygen plasma to synthesize diverse mesoporous metal oxides (VO, VO, TiO, NbO, WO and MoO) at low temperatures (150-200 °C), which can be applicable to a flexible polymeric substrate is introduced. As a demonstration, a flexible micro-supercapacitor is fabricated by directly synthesizing mesoporous VO on an indium-tin oxide-coated colorless polyimide film. The energy storage performance is well maintained under severe bending conditions.
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| http://dx.doi.org/10.1002/adma.202311809 | DOI Listing |
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