Eco-friendly MA<sub>3</sub>Bi<sub>2</sub>I<sub>9</sub> perovskite thin films based ammonia sensor
Mrunal Bhosale, A I Kazi, Krishna K. Pawar, R S Shingate, A D Kadam, Nikita J. Patil, Arif D. Sheikh
Abstract
Abstract Organic–inorganic perovskite halides (OIPH) have emerged as a wonder material with growing interest in sensors detecting various toxic gases. However, lead toxicity represents a potential obstacle, and therefore finding lead-free cost-effective compatible materials for gas sensing applications is essential. In this work, methylammonium bismuth iodide i.e. (CH 3 NH 3 ) 3 Bi 2 I 9 (MABI) perovskite thin films-based ammonia (NH 3 ) sensor was synthesized using an antisolvent-assisted one-step spin coating method. The MABI sensor shows a linear relationship between the responsivity and concentration of NH 3 with excellent reversibility, high gas responsivity, and humidity stability. The MABI thin-film sensor exhibits a maximum gas response of 24%, a short response/recovery time i.e. 0.14 s /8.15 s and good reversibility at 6 ppm of NH 3 . It was observed that MABI thin films based sensors have excellent ambient stability over a couple of months. This work reveals that it is feasible to design high-performance gas sensors based on environmentally-friendly Bi-based OIPH materials.