An all-inorganic lead-free halide perovskite Cs2InCl5(H2O) with heterogeneous oxygen for noncontact finger humidity detection

In this study, an all-inorganic lead-free halide perovskite Cs2InCl5(H2O) was synthesized using a hydrothermal method. Considering the structural characteristics of Cs2InCl5(H2O), this material is explored for room -temperature humidity-sensing application. We demonstrated that the Cs2InCl5(H2O) sensor has excellent per-formance in the 11% to 97% relative humidity (RH) range, including high sensitivity (1.04 x 103), fast response (30 s), small hysteresis (0.38%), and good long-term stability (30 days). Consequently, this high performance enables the Cs2InCl5(H2O) sensor to demonstrate great latent capacity in noncontact finger moisture detection. Finally, the humidity sensing mechanism was determined by using complex impedance spectra and corre-sponding equivalent circuits, demonstrating the role of charge carriers at different RH levels. This work provides a highly efficient sensing candidate for moisture detection, and more importantly offers a new strategy for the utilization of halide perovskites in high-performance sensory devices.

Automated summary

In this study, a lead-free halide perovskite Cs2InCl5(H2O) was synthesized and explored for humidity-sensing. The Cs2InCl5(H2O) sensor showed excellent performance in the relative humidity range of 11% to 97%, including high sensitivity, fast response, small hysteresis, and good long-term stability. The humidity sensing mechanism was determined using impedance spectra and equivalent circuits, revealing the role of charge carriers at different humidity levels. This work provides an efficient sensing candidate for moisture detection and offers a new strategy for the utilization of halide perovskites in high-performance sensory devices.