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Evaluation of gas-sensing properties of ZnO nanostructures electrochemically doped with Au nanophases

TitoloEvaluation of gas-sensing properties of ZnO nanostructures electrochemically doped with Au nanophases
Tipo di pubblicazioneArticolo su Rivista peer-reviewed
Anno di Pubblicazione2016
AutoriDilonardo, E., Penza Michele, Alvisi Marco, Di Franco C., Palmisano F., Torsi L., and Cioffi N.
RivistaBeilstein Journal of Nanotechnology
Volume7
Paginazione22-31
ISSN21904286
Parole chiaveChemical detection, Chemical sensors, Doped ZnO, ELectrochemical methods, Electrosynthesis, Gas detectors, Gas sensing properties, Gases, Gold, Gold deposits, Nanostructured ZnO, Nanostructures, Nitrogen oxides, Sacrificial anodes, Scanning electron microscopy, Scanning electrons, Sol-gel process, Synthesis (chemical), X ray photoelectron spectroscopy, Zinc oxide, ZnO nanostructures
Abstract

A one-step electrochemical method based on sacrificial anode electrolysis (SAE) was used to deposit stabilized gold nanoparticles (Au NPs) directly on the surface of nanostructured ZnO powders, previously synthesized through a sol-gel process. The effect of thermal annealing temperatures (300 and 550 °C) on chemical, morphological, and structural properties of pristine and Au-doped ZnO nancomposites (Au@ZnO) was investigated. Transmission and scanning electron microscopy (TEM and SEM), as well as X-ray photoelectron spectroscopy (XPS), revealed the successful deposition of nanoscale gold on the surface of spherical and rodlike ZnO nanostructures, obtained after annealing at 300 and 550 °C, respectively. The pristine ZnO and Au@ZnO nanocomposites are proposed as active layer in chemiresistive gas sensors for low-cost processing. Gas-sensing measurements towards NO2 were collected at 300 °C, evaluating not only the Au-doping effect, but also the influence of the different ZnO nanostructures on the gassensing properties. © 2016 Dilonardo et al.

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URLhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-84993977967&doi=10.3762%2fbjnano.7.3&partnerID=40&md5=a3e413a097d46e6a5a6ef86e00fc8148
DOI10.3762/bjnano.7.3
Citation KeyDilonardo201622