Surface Modification of ZnO Nanowires with CuO: A Tool to Realize Highly-Sensitive H 2 S Sensor
PHYSICS OF THE SOLID STATE(2021)
Abstract
Hydrothermally grown ZnO nanowires (NWs) have been successfully synthesized and surface modified by an ultrathin layer of CuO using dip coating technique to achieve a highly sensitive H 2 S sensor. XRD analysis confirmed the hexagonal structure of ZnO without any Cu sub-oxide peaks. After CuO modification, the peak shift was observed in the electronic states of O and assigned to the defects and increase in adsorbed oxygen species. Similarly, a red shift was also observed in the band edge absorption after CuO modification arising due to defects. The sensor film showed an overall n -type character as confirmed using I ( V ) characteristics. Interestingly, sensor response kinetics towards H 2 S were enhanced after CuO modification. The highest sensor response value of 298 was measured towards 10 ppm H 2 S at 150°C for CuO:ZnO NWs sample having 1.26 at % of Cu. This improved sensor response has been attributed mainly to the formation of randomly distributed p – n nano-hetero-junctions between p -type CuO and n -type ZnO over the sensor surface. In particular, the p – n nano-hetero-junctions collapsed due to conversion of semiconducting CuO into metallic CuS after the unique interaction with H 2 S.
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Key words
ZnO nanowires,gas sensing,H2S,surface modifications,p–n hetero-junctions
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