Metal oxide resistive gas sensors suffer from poor selectivity that restricts their practical applicability.Conventional sensor arrays are used to improve selectivity which increased the system complexity.Here,we have...Metal oxide resistive gas sensors suffer from poor selectivity that restricts their practical applicability.Conventional sensor arrays are used to improve selectivity which increased the system complexity.Here,we have proposed a novel NiO/ZnO-based p–n junction single-diode device for selective sensing of several volatile organic compounds(VOCs)simultaneously by tuning bias voltage.The operating voltage was varied between 3 and 5 volts to achieve selective sensing of 2-propanol(19.1 times for 95ppm with response and recovery times of 70 s and 55s respectively‚at 3 volts),toluene(20.1 times for 95 ppm with response and recovery times of 100 s and 60 s respectively,at 4 volts),and formaldehyde(11.2 times for 95 ppm with response and recovery times of 88 s and 54s respectively,at 5 volts).A probable mechanism of the tunable selectivity with operating bias voltage due to increase in surface carriers with increasing voltage was hence put forth.Thus,this device may play an important role to develop future selective multiple VOC sensor thereby replacing standard sensor arrays.展开更多
基金The authors would like to acknowledge Central Research Facility(CRF)of IIT Kharagpur for various characterization support of nanomaterial.S.S would like to acknowledge Department of Science and Technology(DST)for DST Women Scientist Scheme A(WOS-A)for the partial support of this work(project no.-SR/WOS-A/PM-100/2017(G))。
文摘Metal oxide resistive gas sensors suffer from poor selectivity that restricts their practical applicability.Conventional sensor arrays are used to improve selectivity which increased the system complexity.Here,we have proposed a novel NiO/ZnO-based p–n junction single-diode device for selective sensing of several volatile organic compounds(VOCs)simultaneously by tuning bias voltage.The operating voltage was varied between 3 and 5 volts to achieve selective sensing of 2-propanol(19.1 times for 95ppm with response and recovery times of 70 s and 55s respectively‚at 3 volts),toluene(20.1 times for 95 ppm with response and recovery times of 100 s and 60 s respectively,at 4 volts),and formaldehyde(11.2 times for 95 ppm with response and recovery times of 88 s and 54s respectively,at 5 volts).A probable mechanism of the tunable selectivity with operating bias voltage due to increase in surface carriers with increasing voltage was hence put forth.Thus,this device may play an important role to develop future selective multiple VOC sensor thereby replacing standard sensor arrays.
