It is an All‐Rounder! On the Development of Metal Halide Perovskite‐Based Fluorescent Sensors and Radiation Detectors
Muhammad Aamir, Md. Shahiduzzaman, Tetsuya Taima, Javeed Akhtar, Jean‐Michel Nunzi
Abstract
Abstract Metal halide perovskites (MHPs) dominate the class of wet processed semiconductors due to high photoluminescence quantum yield, tunable emission over a wide wavelength range, high carrier mobilities, and high absorption coefficient. Owing to these remarkable properties, MHPs cover next‐generation applications such as solar cells, light emitting diodes, lasers, photocatalysts, etc. Beside these fascinating applications, MHPs attract increased attention as fluorescent sensors for various chemical analytes and environmental changes such as temperature, etc. Likewise, high‐energy radiation detection is also displayed by the MHPs, like in scintillators. Here, the latest advances in MHPs fluorescent sensors and high‐energy X‐ray, gamma‐ray, and beta detectors are reviewed. The basics including match‐mismatch of MHPs for fluorescent sensing and radiation detection applications are discussed. Moreover, the mechanistic understanding of fluorescent sensing and radiation detection by MHPs is also elaborated. The authors conclude with outlooks on future opportunities for MHP fluorescent sensors and high‐energy radiation detectors.