Nickel oxide nanowires: vapor liquid solid synthesis and integration into a gas sensing device

Anno: 2016

Autori: Kaur N., Comini E., Zappa D., Poli N., Sberveglieri G.

Affiliazione autori: Univ Brescia, SENSOR Lab, Via D Valotti 9, I-25133 Brescia, Italy; CNR, INO, Via D Valotti 9, I-25133 Brescia, Italy.

Abstract: In the field of advanced sensor technology, metal oxide nanostructures are promising materials due to their high charge carrier mobility, easy fabrication and excellent stability. Among all the metal oxide semiconductors, nickel oxide (NiO) is a p-type semiconductor with a wide band gap and excellent optical, electrical and magnetic properties, which has not been much investigated. Herein, we report the growth of NiO nanowires by using the vapor liquid solid (VLS) technique for gas sensing applications. Platinum, palladium and gold have been used as a catalyst for the growth of NiO nanowires. The surface morphology of the nanowires was investigated through scanning electron microscopy to find out which catalyst and growth conditions are best for the growth of nanowires. GI-XRD and Raman spectroscopies were used to confirm the crystalline structure of the material. Different batches of sensors have been prepared, and their sensing performances towards different gas species such as carbon monoxide, ethanol, acetone and hydrogen have been explored. NiO nanowire sensors show interesting and promising performances towards hydrogen.

Giornale/Rivista: NANOTECHNOLOGY

Volume: 27 (20)      Da Pagina: 205701-1  A: 205701-9

Maggiori informazioni: This work has been partially supported by the Italian MIUR through FIRB Project RBAP115AYN ’Oxides at the nanoscale: multifunctionality and applications’, and by the European Community’s 7th Framework Programme, under the grant agreement no. 611887 ’MSP: Multi Sensor Platform for Smart Building Management’. The authors want to thank Francesca Barisani (University of Brescia) for her help in checking and correcting the English language.
Parole chiavi: nickel oxide; nanowires; gas sensing; scanning electron microscope; vapor liquid solid method; Raman spectroscopy
DOI: 10.1088/0957-4484/27/20/205701

Citazioni: 58
dati da “WEB OF SCIENCE” (of Thomson Reuters) aggiornati al: 2024-10-06
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