Synthesis of ZnO/CuO composite coaxial nanoarrays by combined hydrothermal–solvothermal method and potential for solar cells

Abstract: CuO nanoparticles (NPs) sensitized ZnO nanorod composite coaxial nanoarrays were successfully prepared by a combined hydrothermal−solvothermal method. Scanning electron microscopy images show that the number of CuO-NPs on ZnO nanorod surface can be controlled by the reaction time. Synthesis mechanism of ZnO/CuO nanoarray was studied in this work. The Cu2+ ions in solution would be captured by Zn vacancy on ZnO nanorod surface, and then combined with hydroxy groups in solution to formation Cu(OH)2, providing th… Show more

“…Despite the significant effort being focused on cell efficiency improvement, the device stability/degradation issues have not yet been completely resolved [20]. So far, there are various methods have been used for the preparation of ZnO and CuO thin films such as sputtering [21][22][23], Solvothermal [24], Spray pyrolysis [25], Electron beam evaporation [26], chemical vapor deposition, and hydrothermal [27], Electrodeposition [28,29], pulsed laser deposition [30], Sol-gel and Doctor-blading [31], thermal evaporation [32], and spin coating [33], etc. Among them, the spin coating provides good quality and uniform deposition suitable for various applications in research and industries [34,35].…”

ZnO-CuO Based Inorganic Bulk Heterojunction Solar Cells: Influence of Thickness of the Spin-Coated Bulk-Heterojunction Film

“…Despite the significant effort being focused on cell efficiency improvement, the device stability/degradation issues have not yet been completely resolved [20]. So far, there are various methods have been used for the preparation of ZnO and CuO thin films such as sputtering [21][22][23], Solvothermal [24], Spray pyrolysis [25], Electron beam evaporation [26], chemical vapor deposition, and hydrothermal [27], Electrodeposition [28,29], pulsed laser deposition [30], Sol-gel and Doctor-blading [31], thermal evaporation [32], and spin coating [33], etc. Among them, the spin coating provides good quality and uniform deposition suitable for various applications in research and industries [34,35].…”

ZnO-CuO Based Inorganic Bulk Heterojunction Solar Cells: Influence of Thickness of the Spin-Coated Bulk-Heterojunction Film

Multi-staged sol–gel synthesis of Mg doped ZnO/CuO core-shell heterojunction nanocomposite: dopant induced and interface growth response

Tunable V oc in polymer/ZnO array hybrid solar cells by ZnO interlayer with different nano-topographies