Projects per year
Abstract
Compositionally and structurally complex semiconductor oxide nanostructures gain importance in many energy‐related applications. Simple and robust synthesis routes ideally complying with the principles of modern green chemistry are therefore urgently needed. Here we report on the one‐step, room‐temperature synthesis of a crystalline–amorphous biphasic ternary metal oxide at the ZnO surface using aqueous precursor solutions. More specifically, conformal and porous ZnMnO3 shells are photodeposited from KMnO4 solution onto immobilized ZnO nanowires acting not only as the substrate but also as the Zn precursor. This water‐based, low temperature process yields ZnMnO3/ZnO composite electrodes featuring in 1 M Na2SO4 aqueous solution capacitance values of 80–160 F g^-1 (as referred to the total mass of the porous film i. e. the electroactive ZnMnO3 phase and the ZnO nanowire array). Our results highlight the suitability of photodeposition as a simple and green route towards complex functional materials.
Original language | English |
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Journal | CHEMPHYSCHEM |
DOIs | |
Publication status | Published - 2 Nov 2023 |
Fields of Science and Technology Classification 2012
- 104 Chemistry
Projects
- 1 Finished
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From the solid-vacuum interface to the working electrode – Nature, reactivity and functionality of hydrogen-derived electron centers in semiconducting oxides
Berger, T. (Principal Investigator)
1/08/15 → 31/07/20
Project: Research