An electrochemically induced dual-site adsorption composite film of Ni-MOF derivative/NiCo LDH for selective bromide-ion extraction

An electrochemically induced dual-site adsorption composite film of Ni-MOF derivative/NiCo LDH for selective bromide-ion extraction

[Display omitted] •An in-situ growth Ni-MOF(D)/NiCo LDH film was fabricated for Br- extraction.•Electrochemically induced dual-site adsorption mechanism was first proposed.•The film showed high Br- extraction capacity of 126.30 mg·g−1 in neutral solution.•The Ni-MOF(D)/NiCo LDH film exhibited superi...

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Bibliographic Details
Published in:Separation and purification technology Vol. 283; p. 120175
Main Authors: Jiang, Mengfang, Zhang, Xuefeng, Du, Xiao, An, Xiaowei, Gao, Fengfeng, Hao, Xiaogang, Guan, Guoqing, Liu, Zhong, Li, Jun, Abudula, Abuliti
Format: Journal Article
Language:English
Published: Elsevier B.V 15-01-2022
Subjects:
Bromide ion extraction
Electrochemically induced dual-site adsorption
Electrochemically switched ion exchange
Ni-MOF(D)/NiCo LDH composite film
Electrochemically induced dual-site adsorption
Electrochemically switched ion exchange
Ni-MOF(D)/NiCo LDH composite film
Bromide ion extraction
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Summary:[Display omitted] •An in-situ growth Ni-MOF(D)/NiCo LDH film was fabricated for Br- extraction.•Electrochemically induced dual-site adsorption mechanism was first proposed.•The film showed high Br- extraction capacity of 126.30 mg·g−1 in neutral solution.•The Ni-MOF(D)/NiCo LDH film exhibited superior electrochemical stability. An electrochemically induced electrode with bromide ion (Br-) dual adsorption sites was obtained by in-situ growing of Ni-MOF derivative/NiCo layered double hydroxide (Ni-MOF(D)/NiCo LDH) composite film on the stainless-steel wire mesh via an electrodeposition-assisted solvothermal method, which exhibited excellent Br- selectivity from ionic mixture solutions of Br-, NO3– and I- in an electrochemically switched ion exchange (ESIX) system. The Br- extraction capacity was as high as 126.30 mg·g−1 and the separation factors of Br-/NO3– and Br-/I- were 8.29 and 4.83 respectively. Combining the simulation and experimental results, it was confirmed that the highly efficient selective extraction of Br- in neutral solution should be derived from the dual-site (i.e., electrochemically induced laminate metal coordination sites and interlayer anion exchange sites of NiCo LDH) adsorption. Furthermore, the electrode demonstrated superior adsorption–desorption performance and electrochemical stability because of the in-situ growth strategy, which enhanced the binding force between NiCo LDH and substrate and improved the electrical conductivity of NiCo LDH, and provided a storage space for Br-. This study served deep understanding of ions selective extraction mechanism of LDH-based materials in the ESIX process, which could be a novel reaction concept for the design of those electrodes with specific recognition sites in the applications of them in other fields such as supercapacitors, sensors and batteries.
ISSN:1383-5866
1873-3794
DOI:10.1016/j.seppur.2021.120175