Degenerately Doped Metal Oxide Nanocrystals as Plasmonic and Chemoresistive Gas Sensors

作者:Sturaro Marco; Della Gaspera Enrico*; Michieli Niccolo; Cantalini Carlo; Emamjomeh Seyed Mahmoud; Guglielmi Massimo; Martucci Alessandro*
来源:ACS Applied Materials & Interfaces, 2016, 8(44): 30440-30448.
DOI:10.1021/acsami.6b09467

摘要

Highly doped wide band gap metal oxide nanocrystals have recently been proposed as building blocks' for applications as transparent electrodes, electrochromics, plasmonics, and optoelectronics in general. Here we demonstrate the application of gallium-doped zinc oxide (GZO) nanocrystals as novel plasmonic and chemiresistive sensors for the detection of hazardous gases including hydrogen (H-2) and nitrogen dioxide (NO2). GZO nanocrystals with a tunable surface plasmon resonance in the near-infrared are obtained using a colloidal heat-up synthesis. Thanks to the strong sensitivity of the plasmon resonances to chemical and electrical changes occurring at the surface of the nanocrystals, such optical features can be used to detect the presence of toxic gases. By monitoring the changes in the dopant-induced plasmon resonance in the near-infrared, we demonstrate that GZO thin films prepared depositing an assembly of highly doped GZO colloids are able to optically detect both oxidizing and reducing gases at mild (<100 degrees C) operating temperatures. Combined optical and electrical measurements show that trivalent dopants within ZnO nanocrystals enhance the gas sensing response compared to undoped ZnO. Moreover, improved sub-ppm of NO2 gas sensitivity is achieved by activating the sensors response through combined purple blue (lambda = 430 nm) light irradiation and mild heating at 75 degrees C. In addition, these thin films based on degenerately doped semiconductors are highly transparent in the visible range, enabling the fabrication of "invisible" gas sensors. The use of highly doped semiconductive nanocrystals for both IR plasmonic and chemiresistive sensors represent a marked advancement toward the development of highly sensitive and selective devices.

  • 出版日期2016-11-9