Ion transport in nanofluidics under external fields

Nanofluidic channels with tailored ion transport dynamics are usually used as channels for ion transport, to enable high-performance ion regulation behaviors. The rational construction of nanofluidics and the introduction of external fields are of vital significance to the advancement and developmen...

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Veröffentlicht in:Chemical Society reviews 2024-03, Vol.53 (6), p.2972-31
Hauptverfasser: Liu, Pei, Kong, Xiang-Yu, Jiang, Lei, Wen, Liping
Format: Artikel
Sprache:eng
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Zusammenfassung:Nanofluidic channels with tailored ion transport dynamics are usually used as channels for ion transport, to enable high-performance ion regulation behaviors. The rational construction of nanofluidics and the introduction of external fields are of vital significance to the advancement and development of these ion transport properties. Focusing on the recent advances of nanofluidics, in this review, various dimensional nanomaterials and their derived homogeneous/heterogeneous nanofluidics are first briefly introduced. Then we discuss the basic principles and properties of ion transport in nanofluidics. As the major part of this review, we focus on recent progress in ion transport in nanofluidics regulated by external physical fields (electric field, light, heat, pressure, etc. ) and chemical fields (pH, concentration gradient, chemical reaction, etc. ), and reveal the advantages and ion regulation mechanisms of each type. Moreover, the representative applications of these nanofluidic channels in sensing, ionic devices, energy conversion, and other areas are summarized. Finally, the major challenges that need to be addressed in this research field and the future perspective of nanofluidics development and practical applications are briefly illustrated. This review summarizes the recent progress in ion transport in nanofluidics regulated by external physical/chemical fields and the applications in sensing, ion pumps, energy conversion, and others.
ISSN:0306-0012
1460-4744
DOI:10.1039/d3cs00367a