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Reversible Release and Fixation of Bromine in Vacancy‐Ordered Bromide Perovskites

Yang‐Peng Lin, Bing Xia, Sanlue Hu, Yu Zhong, Yue‐E Huang, Zhizhuan Zhang, Ni Wu, Yongwei Wu, Xiaohui Wu, Xiao‐Ying Huang, Zewen Xiao, Ke‐Zhao Du

2020Energy & environment materials40 citationsDOI

Abstract

Bromine is an irreplaceable reagent for many important applications including necessary additive for flame retardants and rubber treatment. However, the toxicity, causticity, and vaporability of bromine make the safe usage and transportation of bromine challenging, which can be alleviated by the bromine prefixation. Herein, vacancy‐ordered bromide perovskites such as Cs 4 Sb 2 Br 12 and Cs 2 PdBr 6 are selected out for the bromine fixation through density‐functional theory calculations and experiments. The redox within the bromide perovskites is designed to provide the driving force for the reversible release and fixation of bromine. Heating and cooling the title bromide perovskites in a necked ampoule make the bromine visible and separable from the solid residue. The composition engineering ( i.e. , Cs 4 Sb 2 Br 12 vs Rb 4 Sb 2 Br 12 , and Cs 4 Sb 2 Br 12 vs Cs 2 PdBr 6 ) can effectively tune the stability (against water and high temperature) and the bromine storage capacity (from 9.30% to 18.76%). In addition, this work can provide a one‐step preparation method for the liquid bromine without further purification.

Topics & Concepts

BromineBromideReagentChemistryAmpouleAntimonyInorganic chemistryCarbon fixationOrganic chemistryCarbon dioxidePerovskite Materials and ApplicationsAdvanced Photocatalysis TechniquesAdvanced Condensed Matter Physics
Reversible Release and Fixation of Bromine in Vacancy‐Ordered Bromide Perovskites | Litcius