Organic–Inorganic Hybrid Halide X-ray Scintillator with High Antiwater Stability
Yuyin Wang, Ying Feng, Xiaotong Liu, Lin-Ying Cao, Qing-Ying Xu, Hao Qu, Tong Zhao, Yunyun Li, Guoming Lin
Abstract
In recent years, low-dimensional organic–inorganic hybrid metal halides have garnered significant attention for optoelectronic applications due to their exceptional photophysical properties, despite their persistent challenge of low stability. Addressing this challenge, our study introduces 1-[5-(trifluoromethyl)pyridin-2-yl]piperazinium (TFPP) as a cation, harvesting a novel one-dimensional hybrid cadmium-based halide semiconductor (TFPP)CdCl 4, which exhibits intense blue-light emission upon UV excitation. Additionally, (TFPP)CdCl 4 demonstrates a high scintillation performance under X-ray excitation, producing 16600 ± 500 photons MeV –1 and achieving a low detection limit of 0.891 μGy air s –1 . Notably, (TFPP)CdCl 4 showcases remarkable stability against water, intense light sources, heating, and corrosive environments, positioning it as a promising candidate for optoelectronic applications. Through a blend of experimental techniques and theoretical analyses, including density functional theory calculations, we elucidate the unique photophysical properties and structural stability of (TFPP)CdCl 4 . These findings significantly contribute to the understanding of low-dimensional hybrid halide semiconductors, offering valuable insights into their potential application in advanced optoelectronic devices and paving the way for further research in this field.