Dynamics of Wicking in Silicon Nanopillars Fabricated with Interference Lithography and Metal-Assisted Chemical Etching

Dynamics of Wicking in Silicon Nanopillars Fabricated with Interference Lithography and Metal-Assisted Chemical Etching

The capillary rise of liquid on a surface, or “wicking”, has potential applications in biological and industrial processes such as drug delivery, oil recovery, and integrated circuit chip cooling. This paper presents a theoretical study on the dynamics of wicking on silicon nanopillars based on a ba...

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Veröffentlicht in:Langmuir 2012-08, Vol.28 (31), p.11465-11471
Hauptverfasser: Mai, Trong Thi, Lai, Chang Quan, Zheng, H, Balasubramanian, Karthik, Leong, K. C, Lee, P. S, Lee, Chengkuo, Choi, W. K
Format: Artikel
Sprache:eng
Schlagworte:
Capillary Action
Chemistry
Diffusion
Exact sciences and technology
General and physical chemistry
Gold - chemistry
Kinetics
Nanostructures - chemistry
Nanotechnology
Particle Size
Silicon - chemistry
Thermodynamics
Wettability
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Zusammenfassung:The capillary rise of liquid on a surface, or “wicking”, has potential applications in biological and industrial processes such as drug delivery, oil recovery, and integrated circuit chip cooling. This paper presents a theoretical study on the dynamics of wicking on silicon nanopillars based on a balance between the driving capillary forces and viscous dissipation forces. Our model predicts that the invasion of the liquid front follows a diffusion process and strongly depends on the structural geometry. The model is validated against experimental observations of wicking in silicon nanopillars with different heights synthesized by interference lithography and metal-assisted chemical etching techniques. Excellent agreement between theoretical and experimental results, from both our samples and data published in the literature, was achieved.
ISSN:0743-7463
1520-5827
DOI:10.1021/la302262g