Raspberry-structured silver-carbon hybrid nanoparticle clusters for high-performance capacitive deionization

An aerosol-based synthetic approach, in combination with a real-time characterization method using differential ion-mobility analyses coupled to temperature-programmed Fourier-transform infrared spectroscopy (DMA/TP-FTIR), was demonstrated for the development of raspberry-structured Ag‑carbon hybrid...

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Published inDesalination Vol. 520; p. 115343
Main Authors Chiang, Meng-Ting, Tu, Yi-Heng, Chiang, Hsin-Li, Hu, Chi-Chang, Tsai, De-Hao
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.12.2021
Subjects
Aerosol
Capacitive deionization
Carbon
Nanoparticle
Silver
Silver
Capacitive deionization
Nanoparticle
Carbon
Aerosol
Online AccessGet full text
ISSN0011-9164
1873-4464
DOI10.1016/j.desal.2021.115343

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Abstract An aerosol-based synthetic approach, in combination with a real-time characterization method using differential ion-mobility analyses coupled to temperature-programmed Fourier-transform infrared spectroscopy (DMA/TP-FTIR), was demonstrated for the development of raspberry-structured Ag‑carbon hybrid nanoparticle clusters (Ag-C-NPC). Physical size, number concentration, and compositions of the Ag-C-NPC were shown to be successfully characterized directly in the aerosol state on a quantitative basis. Remarkable high salt adsorption capacity (15.6 mg/g), good charging/discharging stability, and low requirement of cell voltage were attainable by using the Ag nanoparticle-decorated carbon nanoparticle clusters as the positive electrode material. This work provides a proof of concept of using the aerosol-based synthesis, with the support of in-situ characterization, for the development of AgC nanocomposite clusters to achieve high CDI performance. The method also shows promise for the tuning of the material properties of Ag-C-NPC for the optimization of the CDI capacity and cyclic stability useful for a variety of the water desalination applications (e.g., brackish water). [Display omitted] •Ag-carbon nanoparticle clusters as positive electrode via aerosol-based synthesis.•Direct gas-phase coupled characterization supports the aerosol-based synthesis.•Successful quantitative characterization of the Ag-C-NPC in aerosol state.•Remarkable high capacity (15.6 mg/g) and stability with a low cell voltage.
AbstractList An aerosol-based synthetic approach, in combination with a real-time characterization method using differential ion-mobility analyses coupled to temperature-programmed Fourier-transform infrared spectroscopy (DMA/TP-FTIR), was demonstrated for the development of raspberry-structured Ag‑carbon hybrid nanoparticle clusters (Ag-C-NPC). Physical size, number concentration, and compositions of the Ag-C-NPC were shown to be successfully characterized directly in the aerosol state on a quantitative basis. Remarkable high salt adsorption capacity (15.6 mg/g), good charging/discharging stability, and low requirement of cell voltage were attainable by using the Ag nanoparticle-decorated carbon nanoparticle clusters as the positive electrode material. This work provides a proof of concept of using the aerosol-based synthesis, with the support of in-situ characterization, for the development of AgC nanocomposite clusters to achieve high CDI performance. The method also shows promise for the tuning of the material properties of Ag-C-NPC for the optimization of the CDI capacity and cyclic stability useful for a variety of the water desalination applications (e.g., brackish water). [Display omitted] •Ag-carbon nanoparticle clusters as positive electrode via aerosol-based synthesis.•Direct gas-phase coupled characterization supports the aerosol-based synthesis.•Successful quantitative characterization of the Ag-C-NPC in aerosol state.•Remarkable high capacity (15.6 mg/g) and stability with a low cell voltage.
ArticleNumber 115343
Author Tsai, De-Hao
Hu, Chi-Chang
Chiang, Meng-Ting
Tu, Yi-Heng
Chiang, Hsin-Li
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  publication-title: Russ. J. Electrochem.
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Snippet An aerosol-based synthetic approach, in combination with a real-time characterization method using differential ion-mobility analyses coupled to...
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StartPage 115343
SubjectTerms Aerosol
Capacitive deionization
Carbon
Nanoparticle
Silver
Title Raspberry-structured silver-carbon hybrid nanoparticle clusters for high-performance capacitive deionization
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