Kwonwoo Oh scite author profile

Zinc oxide (ZnO) is a wide-band-gap semiconductor that is promising for use as a transparent conductive oxide film. To date, to improve their optoelectrical properties, pristine ZnO films have been doped with metals using various techniques. In this study, nanostructured Cu-ZnO thin films were synthesized using a modified two-step radio frequency magnetron sputtering technique with separate ZnO and metallic Cu targets. Controlling the timing of the Cu/ZnO co-sputtering and ZnO-only sputtering steps afforded a significant change in the resulting nanostructures, such as uniform Cu-ZnO and broccoli-structured Cu-ZnO thin films. Using various measurement techniques, the influence of Cu doping was analyzed in detail. Furthermore, a crystal growth model for the formation of the broccoli-like clusters was suggested. The Cu-ZnO thin films synthesized using this technique demonstrate a highly improved conductivity with some loss in optical transmittance.

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Novel Intense-pulsed-light synthesis of amorphous SnO2 electron-selective layers for efficient planar MAPbI3 perovskite solar cells

Jung

Shin

et al. 2021

Journal of Materials Science & Technology

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Highly luminescent CH3NH3PbBr3 quantum dots with 96.5% photoluminescence quantum yield achieved by synergistic combination of single-crystal precursor and capping ligand optimization

Jung

Park

et al. 2021

Journal of Alloys and Compounds

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Kwonwoo Oh

Efficient composition tuning via cation exchange and improved reproducibility of photovoltaic performance in FA MA1-PbI3 planar heterojunction solar cells fabricated by a two-step dynamic spin-coating process

Ambient-air fabrication of stable mixed cation perovskite planar solar cells with efficiencies exceeding 22% using a synergistic mixed antisolvent with complementary properties

Tuning the Morphology and Properties of Nanostructured Cu-ZnO Thin Films Using a Two-Step Sputtering Technique

Novel Intense-pulsed-light synthesis of amorphous SnO2 electron-selective layers for efficient planar MAPbI3 perovskite solar cells

Highly luminescent CH3NH3PbBr3 quantum dots with 96.5% photoluminescence quantum yield achieved by synergistic combination of single-crystal precursor and capping ligand optimization

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