![]() |
Single-pass capacitive deionization with a HNO3-modified electrode for fluoride removal
Feng Zhang, Fan Yang
Environmental Engineering Research. 2023;28(1):210430 Published online 2022 Feb 13 DOI: https://doi.org/10.4491/eer.2021.430
|
Citations to this article as recorded by
Recent advances in electrode materials for typical halogen removal via capacitive deionization
Sile Hu, Dezhi Fang, Fukuan Li, Zikang Xu, Kexun Li, Peng Zhang, Weidong Feng
Desalination.2025; 601: 118608. CrossRef Capacitive deionization for water desalination: Cost analysis, recent advances, and process optimization
Maha Mohammad AL-Rajabi, Farah Anwar Abumadi, Tahar Laoui, Muataz Ali Atieh, Khalil Abdelrazek Khalil
Journal of Water Process Engineering.2024; 58: 104816. CrossRef Redox flow desalination for tetramethylammonium hydroxide removal and recovery from semiconductor wastewater
Dayoung Ahn, Seonghwan Kim, Panyu Ren, Volker Presser, Choonsoo Kim
Journal of Industrial and Engineering Chemistry.2023; 118: 147. CrossRef Removal of fluoride and arsenic from groundwater by capacitive deionization using a continuous flow cell with graphite felt electrodes
Yeping Liu, Locksley F. Castañeda, Oscar M. Cornejo, José L. Nava
Chemical Engineering and Processing - Process Inte.2023; 190: 109437. CrossRef Electricity facilitates the lithium sorption from salt-lake brine by H3LiTi5O12 nanoparticles: Kinetics, selectivity and mechanism
Qiuyue Wang, Mu Li, Bing Zhao, Boyang Meng, Wutong Chen, Zekai Jiang, Xin He, Bing Li, Xiao-yan Li, Lin Lin
Chemical Engineering Journal.2023; 471: 144532. CrossRef The model and mechanism of adsorptive technologies for wastewater containing fluoride: A review
Zhen Zeng, Qian Li, Jia Yan, Lei Huang, Samuel Raj Babu Arulmani, Hongguo Zhang, Shaojian Xie, Wenghong Sio
Chemosphere.2023; 340: 139808. CrossRef
|