Li, Zixian and Xu, Nuo and Ren, Jing and Hao, Haigang and Gao, Rui and Kong, Xianggui and Yan, Hong and Hua, Xiao and Peng, Yung-Kang and Ma, Shulan and O'Hare, Dermot and Zhao, Yufei (2024) Theory-driven design of cadmium mineralizing layered double hydroxides for environmental remediation. Chemical Science, 15 (32). pp. 13021-13031. ISSN 2041-6520
Full text not available from this repository.Abstract
The environmental concern posed by toxic heavy metal pollution in soil and water has grown. Ca-based layered double hydroxides (LDHs) have shown exceptional efficacy in eliminating heavy metal cations through the formation of super-stable mineralization structures (SSMS). Nevertheless, it is still unclear how the intricate coordination environment of Ca2+ in Ca-based LDH materials affects the mineralization performance, which hinders the development and application of Ca-based LDH materials as efficient mineralizers. Herein, we discover that, in comparison to a standard LDH, the mineralization efficiency for Cd2+ ions may be significantly enhanced in the pentacoordinated structure of defect-containing Ca-5-LDH utilizing both density functional theory (DFT) and ab initio molecular dynamics (AIMD) simulations. Furthermore, the calcination-reconstruction technique can be utilized to successfully produce pentacoordinated Ca-5-LDH. Subsequent investigations verified that Ca-5-LDH exhibited double the mineralization performance (421.5 mg g−1) in comparison to the corresponding pristine seven coordinated Ca-7OH/H2O-LDH (191.2 mg g−1). The coordination-relative mineralization mechanism of Ca-based LDH was confirmed by both theoretical calculations and experimental results. The understanding of LDH materials and their possible use in environmental remediation are advanced by this research.