Cited Article: Sokhan VP. Fluid flow in nanopores: Accurate boundary conditions for carbon nanotubes
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Title:
A High-Flux, Flexible Membrane with Parylene-encapsulated Carbon Nanotubes
Authors:
Park, HG; In, J; Kim, S; Fornasiero, F; Holt, JK; Grigoropoulos, CP; Noy, A; Bakajin, O
Author Full Names:
Park, H. G.; In, J.; Kim, S.; Fornasiero, F.; Holt, J. K.; Grigoropoulos, C. P.; Noy, A.; Bakajin, O.
Source:
NSTI NANOTECH 2008, VOL 1, TECHNICAL PROCEEDINGS : 43-46 2008
Language:
English
Document Type:
Proceedings Paper
Author Keywords:
membrane; carbon nanotube; parylene; high-flux
KeyWords Plus:
BOUNDARY-CONDITIONS; MASS-TRANSPORT; WATER; NANOPORES; FABRICATION; FLOW; ARRAYS
Abstract:
We present fabrication and characterization of a membrane based on carbon nanotubes (CNTs) and parylene. Carbon nanotubes have shown orders of magnitude enhancement in gas and water permeability compared to estimates generated by conventional theories [1, 2]. Large area membranes that exhibit flux enhancement characteristics of carbon nanotubes may provide an economical solution to a variety of technologies including water desalination [3] and gas sequestration [4]. We report a novel method of making carbon nanotube-based, robust membranes with large areas. A vertically aligned dense carbon nanotube array is infiltrated with parylene. Parylene polymer creates a pinhole free transparent film by exhibiting high surface conformity and excellent crevice penetration. Using this moisture-, chemical- and solvent-resistant polymer creates carbon nanotube membranes that promise to exhibit high stability and biocompatibility. CNT membranes are formed by releasing a free-standing film !
that consists of parylene-infiltrated CNTs, followed by CNT uncapping on both sides of the composite material. Thus fabricated membranes show flexibility and ductility due to the parylene matrix material. These membranes have a potential for applications that may require high flux, flexibility and durability.
Reprint Address:
Park, HG, LLNS LLC, Livermore, CA USA.
Research Institution addresses:
[Park, H. G.; Fornasiero, F.; Holt, J. K.; Noy, A.; Bakajin, O.] LLNS LLC, Livermore, CA USA
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Cited Reference Count:
27
Times Cited:
0
Publisher:
CRC PRESS-TAYLOR & FRANCIS GROUP; 6000 BROKEN SOUND PARKWAY NW, STE 300, BOCA RATON, FL 33487-2742 USA
IDS Number:
BMF46
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