26204-55-7Relevant articles and documents
Crystal structure and solid-solid phase transition of 1-dodecylamine hydrobromide
Liu, Yupu,Di, Youying,Dan, Wenyan,He, Donghua
, p. 1371 - 1387 (2010)
1-dodecylamine hydrobromide was synthesized. The crystal structure of the compound was determined by X-ray crystallography. Low-temperature heat capacities of the title compound were measured by an adiabatic calorimeter over the temperature range from 78 to 390 K. Three solid-solid phase transitions were observed at the peak temperatures of (329.278±0.234), (337.805±0.326), and (347.371±0.154) K. The molar enthalpies and entropies of the three phase transitions of the substance were calculated based on the analysis of heat capacity curves. Experimental values of heat capacities for the title compound were fitted to two polynomial equations. Three solid-solid phase transitions and a melting process of 1-dodecylamine hydrobromide were verified by DSC technique. In addition, the reversibility and repeatability of the three phase transitions were discussed. by Oldenbourg Wissenschaftsverlag, Mu?nchen.
Hydrogen-Rich 2D Halide Perovskite Scintillators for Fast Neutron Radiography
Sun, Chenghua,Tang, Bin,Wang, Jingjing,Wang, Nü,Wu, Yang,Yi, Yuanping,Zeng, Yan,Zhang, Yuan,Zhao, Yong,Zheng, Jinxiao,Zhou, Shuyun
supporting information, p. 21302 - 21311 (2021/12/17)
A fast neutron has strong penetration ability through dense and bulky objects, which makes it an ideal nondestructive technology for detecting voids, cracks, or other defects inside large equipment. However, the lack of effective fast neutron detection materials limits its application. Perovskites have shown excellent optical properties in many areas, but they are absent from fast neutron detection imaging because they cannot directly absorb fast neutrons and emit luminescence. Here, we demonstrate a hydrogen-rich long-chain organic amine modified two-dimensional (2D) perovskite fast neutron scintillator, Mn-(C18H37NH3)2PbBr4(Mn-STA2PbBr4). Its hydrogen density can reach 9.51 × 1028 m-3, and the photoluminescence quantum yield can reach 58.58%, so it is possible to integrate fast neutron absorption and luminescence into a single compound. More importantly, Mn-STA2PbBr4 can be made into a large-area self-supporting fast neutron scintillator plate with satisfactory spatial resolution (0.5 lp/mm (lp: line pairs)). This strategy provides a simple and promising choice for fast neutron scintillator nondestructive testing.