Journal
RSC ADVANCES
Volume 4, Issue 92, Pages 50866-50872Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/c4ra05301j
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Funding
- National Science Council of Taiwan [NSC 102-2221-E-019-006-MY3]
- National Taiwan Ocean University [NTOU-RD-AA-2012-104012]
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We reported the fabrication of a highly sensitive and fast switchable humidity sensor based on ZnO-TiO2 core-shell nanorods that were synthesized using hydrothermal solution and atomic layer deposition. These nanorods were thermally treated under various physical conditions to improve their sensing performance. The structural investigation revealed that the crystal and microstructure changed with the thermal treatment. Notably, the amorphous TiO2 shell layer transformed into various degrees of crystalline phase after annealing in air and a vacuum at 400 degrees C. Furthermore, the responses of the sensors fabricated from the ZnO-TiO2 nanorods, with and without thermal annealing, to relative humidity (RH) changes were proportional with the increase in humidity. Among various samples, ZnO- TiO2 nanorods thermally treated in a vacuum exhibited the highest humidity selectivity in response to the cyclic changes in humidity from 11% RH to 33-95% RH at room temperature. Possible mechanisms for the enhancement of sensor performance have been discussed based on structural modifications caused by the thermal treatments.
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