Nickel nanoparticle-decorated reduced graphene oxide/WO3nanocomposite – a promising candidate for gas sensing

Abstract

We report for the first time the combination of WO3sensing elements with a non-noble metal–carbon composite, namely a nickel metal nanoparticle–carbon composite (Ni@rGO). Previous work with WO3had used either NiO (as part of the WO3lattice), solely carbon, Pd-surface decorated WO3(Pd@WO3), or Pd or Pt@carbon@WO3. We demonstrate the gas response for pure WO3, rGO/WO3and Ni@rGO/WO3sensing elements towards NO2and acetone in air as well as towards CO in N2. The addition of 0.35 wt % Ni@rGO composite to WO3enables the increase of the sensory response by more than 1.6 times for NO2vapors. The gas response towards acetone using 0.35 wt % Ni@rGO/WO3composite was 1.5 times greater for 3500 ppm than for 35,000 ppm acetone. For 0.35 wt % Ni@rGO/WO3composite and CO gas, a response time (Tres) of 7 min and a recovery time (Trec) of 2 min was determined.