Speaker
Description
This study aims to develop and investigate the characteristics of a liquid scintillator solution using perovskite quantum dot structures. To date, there have been no specific examples of utilizing perovskite structures for particle detectors in high-energy or nuclear physics, making this research an exploration of a novel next-generation liquid scintillator solution. Currently, the synthesis of perovskite in most laboratories is conducted in environments requiring high-cost equipment, such as high pressure, vacuum, and high temperatures. However, this study pursues a synthesis approach under ambient pressure, at room temperature, and in air, eliminating the need for specialized facilities. The physical and optical properties of the synthesized perovskite-based liquid scintillator solution were thoroughly investigated.
