Cited Article: Hummer, G. Water conduction through the hydrophobic channel of a carbon nanotube
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Number of Citing Articles: 2 new records this week (2 in this e-mail)
Organization ID: 3b97d1bbc1878baed0ab183d8b03130b
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Title:
Diffusion and binding of finite-size particles in confined geometries
Authors:
Henle, ML; DiDonna, B; Santangelo, CD; Gopinathan, A
Author Full Names:
Henle, Mark L.; DiDonna, Brian
Source:
PHYSICAL REVIEW E 78 (3): Art. No. 031118 Part 1 SEP 2008
Language:
English
Document Type:
Article
Keywords Plus:
SIMPLE EXCLUSION PROCESS; SINGLE-FILE DIFFUSION; MICROFLUIDICS; TRANSPORT; ZEOLITES; CHANNELS; FLUIDS; PORES
Abstract:
Describing the diffusion of particles through crowded, confined environments with which they can interact is of considerable biological and technological interest. Under conditions where the confinement dimensions become comparable to the particle dimensions, steric interactions between particles, as well as particle-wall interactions, will play a crucial role in determining transport properties. To elucidate the effects of these interactions on particle transport, we consider the diffusion and binding of finite-size particles within a channel whose diameter is comparable to the size of the particles. Using a simple lattice model of this process, we calculate the steady-state current and density profiles of both bound and free particles in the channel. We show that the system can exhibit qualitatively different behavior depending on the ratio of the channel width to the particle size. We also perform simulations of this system and find excellent agreement with our analytic r!
esults.
Reprint Address:
Henle, ML, Univ Calif Los Angeles, Dept Chem & Biochem, Los Angeles, CA 90025 USA.
Research Institution addresses:
Univ Calif Los Angeles, Dept Chem & Biochem, Los Angeles, CA 90025 USA; Stellar Sci, Albuquerque, NM 87110 USA; Univ Massachusetts, Dept Phys, Amherst, MA 01003 USA; Univ Calif, Sch Nat Sci, Merced, CA 95344 USA
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Cited Reference Count:
38
Times Cited:
0
Publisher:
AMER PHYSICAL SOC; ONE PHYSICS ELLIPSE, COLLEGE PK, MD 20740-3844 USA
Subject Category:
Physics, Fluids & Plasmas; Physics, Mathematical
ISSN:
1539-3755
DOI:
10.1103/PhysRevE.78.031118
IDS Number:
355BD
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Title:
The thermal effect on vibration and instability of carbon nanotubes conveying fluid
Authors:
Wang, L; Ni, Q; Li, M; Qian, Q
Author Full Names:
Wang, L.; Ni, Q.
Source:
PHYSICA E-LOW-DIMENSIONAL SYSTEMS & NANOSTRUCTURES 40 (10): 3179-3182 SEP 2008
Language:
English
Document Type:
Article
Author Keywords:
carbon nanotube conveying fluid; temperature change; instability; critical flow velocity
Keywords Plus:
TEMPERATURE-CHANGE; STORAGE; FLOW
Abstract:
Based on the theory of thermal elasticity mechanics, an elastic Bernoulli-Euler beam model is developed for vibration and instability analysis of fluid-conveying single-walled carbon nanotubes (SWNTs) considering the thermal effect. Results are demonstrated for the dependence of natural frequencies on the flow velocity as well as temperature change. The influence of temperature change on the critical flow velocity at which buckling instability occurs is investigated. It is concluded that the effect of temperature change on the instability of SWNTs conveying fluid is significant. (C) 2008 Elsevier B.V. All rights reserved.
Reprint Address:
Wang, L, Huazhong Univ Sci & Technol, Dept Mech, Wuhan 430074, Peoples R China.
Research Institution addresses:
Huazhong Univ Sci & Technol, Dept Mech, Wuhan 430074, Peoples R China; Wuhan Inst Technol, Sch Mech Engn, Wuhan 430074, Peoples R China
E-mail Address:
wanglinfliping@sohu.com
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Cited Reference Count:
24
Times Cited:
0
Publisher:
ELSEVIER SCIENCE BV; PO BOX 211, 1000 AE AMSTERDAM, NETHERLANDS
Subject Category:
Nanoscience & Nanotechnology; Physics, Condensed Matter
ISSN:
1386-9477
DOI:
10.1016/j.physe.2008.05.009
IDS Number:
355NO
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