WO_x matchhead-capped ZnO nanorods for gas-blocking and light-masking behavior

Abstract: In this study, matchhead WOx-capped ZnO nanorods (NRs) were formed by hydrothermal and sputtering processes. In order to examine the morphology and material properties, scanning electron microscopy, transmission electron microscopy, X-ray photoelectron spectroscopy and X-ray diffraction were performed. Amorphous circular-shaped WOx heads were successfully grown on top of ZnO NRs. In order to explore the optical and gas responses of the nanostructures, UV-light responses and H2 gas responses were measured for p… Show more

“…Different from the shapes of the ZnO/WO3 match-head rod and ZnO/ZnS coreshell rod, the ZnO/IGZO rod resembled two capsules (one inside and one outside), as shown in Fig. 1(b) [6]. Moreover, ZnO-based nanostructures on a sensing device with two interdigital electrodes are shown in Fig.…”

“…2 (d), only ZnO crystallized phases could be observed, while no IGZ-O crystallized phases could be seen in the XRD patterns. Like the sputtered WO3 on ZnO NRs, sputtered IGZO may also be amorphous [6]. For oxygen in different chemical states, the peaks of O at 531eV, 532eV and, 533 eV are attributed to Zn-O-Zn (metal oxide), Zn-OH (oxygen defect) and Zn-O-R (organic residue), as shown in Fig.…”

UV Light and H₂ Gas Dual Sensing Properties of ZnO/InGaZnO Match-Head Nanorods

“…Different from the shapes of the ZnO/WO3 match-head rod and ZnO/ZnS coreshell rod, the ZnO/IGZO rod resembled two capsules (one inside and one outside), as shown in Fig. 1(b) [6]. Moreover, ZnO-based nanostructures on a sensing device with two interdigital electrodes are shown in Fig.…”

“…2 (d), only ZnO crystallized phases could be observed, while no IGZ-O crystallized phases could be seen in the XRD patterns. Like the sputtered WO3 on ZnO NRs, sputtered IGZO may also be amorphous [6]. For oxygen in different chemical states, the peaks of O at 531eV, 532eV and, 533 eV are attributed to Zn-O-Zn (metal oxide), Zn-OH (oxygen defect) and Zn-O-R (organic residue), as shown in Fig.…”

UV Light and H₂ Gas Dual Sensing Properties of ZnO/InGaZnO Match-Head Nanorods

Investigation of ZnO/V2O5 hybrid nanocomposite-based ultraviolet photodetector and hydrogen gas sensor

Development of a broadband photodetector utilizing ZnO nanorods with grating structure fabricated via nanoimprint lithography