Ionic liquid flow along the carbon nanotube with DC electric field
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Taechang An | Geunbae Lim | Hyungkook Jeon | Intae Kim | G. Lim | Taechang An | Hyungkook Jeon | Jung Hwal Shin | Geon Hwee Kim | Intae Kim | Jung Hwal Shin | Geon Hwee Kim
[1] Lei Jiang,et al. Bioinspired Conical Copper Wire with Gradient Wettability for Continuous and Efficient Fog Collection , 2013, Advanced materials.
[2] Lei Jiang,et al. A multi-structural and multi-functional integrated fog collection system in cactus , 2012, Nature Communications.
[3] Lei Jiang,et al. Manipulating and dispensing micro/nanoliter droplets by superhydrophobic needle nozzles. , 2013, ACS nano.
[4] Taechang An,et al. Fabrication of functional micro- and nanoneedle electrodes using a carbon nanotube template and electrodeposition , 2011, Nanoscale research letters.
[5] Michael Faraday,et al. Experimental Researches in Electricity , 1880, Nature.
[6] Jin Zhai,et al. Directional water collection on wetted spider silk , 2010, Nature.
[7] Huan Liu,et al. Bio-inspired multistructured conical copper wires for highly efficient liquid manipulation. , 2014, ACS nano.
[8] Helen Song,et al. Reactions in droplets in microfluidic channels. , 2006, Angewandte Chemie.
[9] I Pagonabarraga,et al. Controlled drop emission by wetting properties in driven liquid filaments. , 2011, Nature materials.
[10] B. Mosadegh,et al. Nanoliter Liquid Patterning in Aqueous Environments for Spatially-defined Reagent Delivery to Mammalian Cells Hhs Public Access , 2022 .
[11] Y. Hirose,et al. Effect of electrode materials on electrohydrodynamic flows of ethanol , 2013 .
[12] A. Lee,et al. Droplet microfluidics. , 2008, Lab on a chip.
[13] D. Weitz,et al. Monodisperse Double Emulsions Generated from a Microcapillary Device , 2005, Science.
[14] Hee-Sup Shin,et al. Carbon‐Nanotube‐Modified Electrodes for Highly Efficient Acute Neural Recording , 2014, Advanced healthcare materials.
[15] N. Quirke,et al. Fluid flow in carbon nanotubes and nanopipes. , 2007, Nature nanotechnology.
[16] D. Quéré,et al. Drops on a conical wire , 2004, Journal of Fluid Mechanics.
[17] Huan Liu,et al. Chinese Brushes: Controllable Liquid Transfer in Ratchet Conical Hairs , 2014, Advanced materials.
[18] Yury Gogotsi,et al. Review: static and dynamic behavior of liquids inside carbon nanotubes , 2008 .
[19] Jian Yu Huang,et al. Nanowire liquid pumps. , 2013, Nature nanotechnology.
[20] Karl Gatterer,et al. The floating water bridge , 2006 .
[21] P. Renaud,et al. Transport phenomena in nanofluidics , 2008 .
[22] R. Wightman,et al. Electroosmotic flow and its contribution to iontophoretic delivery. , 2008, Analytical chemistry.
[23] John A Rogers,et al. High-resolution electrohydrodynamic jet printing. , 2007, Nature materials.
[24] Andrew G. Glen,et al. APPL , 2001 .
[25] Sanghyun Lee,et al. Liquid glass electrodes for nanofluidics , 2010, Nature nanotechnology.
[26] Lin Feng,et al. Structured cone arrays for continuous and effective collection of micron-sized oil droplets from water , 2013, Nature Communications.
[27] O. Velev,et al. Anisotropic particle synthesis in dielectrophoretically controlled microdroplet reactors , 2004, Nature materials.
[28] M Paturzo,et al. Dispensing nano-pico droplets and liquid patterning by pyroelectrodynamic shooting. , 2010, Nature nanotechnology.
[29] Wei Gao,et al. Nano/Microscale motors: biomedical opportunities and challenges. , 2012, ACS nano.
[30] Haihui Ye,et al. Environmental Scanning Electron Microscopy Study of Water in Carbon Nanopipes , 2004 .
[31] H. Stone,et al. Wetting of flexible fibre arrays , 2012, Nature.
[32] J. Eijkel,et al. Principles and applications of nanofluidic transport. , 2009, Nature nanotechnology.