摘要
Highly-sensitive and stable ozone and hydrogen sensing elements were fabricated based on well-crystalline rounded cube-shaped CsPbBr 3 microcrystals,synthesized by a facile solution process per-formed under ambient conditions.It is shown that such elements demonstrate enhanced room tem-perature gas sensing ability compared to the previously reported metal halide and oxide-based ones.Electrical measurements performed on these sensing components revealed high sensitivity to ultra-low ozone and hydrogen concentrations,namely 4 ppb and 1 ppm respectively,as well as a remarkable repeatability,even after a few months of storage in ambient conditions.Both ozone and hydrogen sensors were self-activated,as they did not require the use of UV or heating external stimuli to operate,and exhibited fast detection and short restoration times.All such attractive properties along with the simple fabrication process could provide an easy,efficient and low-cost technology for the realization of future gas sensing devices.
基金
This work was supported by the FLAG-ERA grant PeroGaS by General Secretariat for Research and Innovation(GSRI)(MIS 5070514)
K.B.acknowledges E.U.H2020 Research and Innovation Program under Grant Agreement N820677
Greek State Schol-arships Foundation(IKY)through the operational Program«Human Resources Development,Education and Lifelong Learning»in the context of the project“Reinforcement of Postdoctoral Researchers-2nd Cycle”(MIS-5033021).
