Dimensional optimization enables high-performance capacitive deionization
Capacitive deionization (CDI) technology is an effective seawater desalination technology
due to its high cycle efficiency and good reversibility property, which has been extensively …
due to its high cycle efficiency and good reversibility property, which has been extensively …
Carbon–metal compound composite electrodes for capacitive deionization: synthesis, development and applications
Capacitive deionization (CDI) is an emerging desalination technology that utilizes the
capacitive properties (electrical double-layered capacitance, redox or ion intercalation …
capacitive properties (electrical double-layered capacitance, redox or ion intercalation …
Capacitive deionization with nitrogen-doped highly ordered mesoporous carbon electrodes
S Tian, J Wu, X Zhang, KK Ostrikov, Z Zhang - Chemical Engineering …, 2020 - Elsevier
As a promising desalination method, capacitive deionization (CDI) is capable of addressing
the issues of water resource shortage and water environment pollution. However, the …
the issues of water resource shortage and water environment pollution. However, the …
Sulfur & nitrogen co-doped electrospun carbon nanofibers as freestanding electrodes for membrane capacitive deionization
L Gao, S Liu, Q Dong, C Hu, J Qiu - Separation and Purification Technology, 2022 - Elsevier
Capacitive deionization (CDI), especially membrane capacitive deionization (MCDI)
technology, is an energy-efficient and environmentally friendly water desalination …
technology, is an energy-efficient and environmentally friendly water desalination …
Improved performance and long-term stability of activated carbon doped with nitrogen for capacitive deionization
Nitrogen-doped activated carbon (NAC) is prepared by a combination of acid pre-treatment
and thermal nitrogen doping for the positive electrode of asymmetric capacitive deionization …
and thermal nitrogen doping for the positive electrode of asymmetric capacitive deionization …
Hybrid capacitive deionization of NaCl and toxic heavy metal ions using faradic electrodes of silver nanospheres decorated pomegranate peel-derived activated …
Capacitive deionization (CDI) is an evolving technology for eradicating salt and toxic heavy
metal ions from brackish wastewater. However, traditional CDI electrodes have lower salt …
metal ions from brackish wastewater. However, traditional CDI electrodes have lower salt …
Theoretical insight into the structure-property relationship of mixed transition metal oxides nanofibers doped in activated carbon and 3D graphene for capacitive …
Over the last two decades, the capacitive deionization (CDI) technique has been developed
into a high performance, low-cost, and environmental-friendly desalination technology. The …
into a high performance, low-cost, and environmental-friendly desalination technology. The …
Electrochemical impedance investigation of urea oxidation in alkaline media based on electrospun nanofibers towards the technology of direct-urea fuel cells
Electrooxidation of urea was investigated by use of electrospun nanofibers through
electrochemical impedance analyses (EIS) which is the best technique to study the electron …
electrochemical impedance analyses (EIS) which is the best technique to study the electron …
Capacitative deionization using commercial activated carbon fiber decorated with polyaniline
S Tian, Z Zhang, X Zhang, KK Ostrikov - Journal of colloid and interface …, 2019 - Elsevier
Capacitive deionization (CDI) has become a promising technology for water desalination
due to its remarkable advantages including low operation cost, no secondary pollution and …
due to its remarkable advantages including low operation cost, no secondary pollution and …
Hydrophilic MoS2/polydopamine (PDA) nanocomposites as the electrode for enhanced capacitive deionization
Because of its special architectures and excellent capacitive property, molybdenum disulfide
(MoS 2) showed great potential in electrochemical-related applications. Nevertheless, the …
(MoS 2) showed great potential in electrochemical-related applications. Nevertheless, the …