Cited Article: Majumder M. Nanoscale hydrodynamics - Enhanced flow in carbon nanotubes
Alert Expires: 18 OCT 2009
Number of Citing Articles: 3 new records this week (3 in this e-mail)
Organization ID: 3b97d1bbc1878baed0ab183d8b03130b
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Title:
Infiltration of Electrolytes in Molecular-Sized Nanopores
Authors:
Liu, L; Chen, X; Lu, WY; Han, AJ; Qiao, Y
Author Full Names:
Liu, Ling; Chen, Xi; Lu, Weiyi; Han, Aijie; Qiao, Yu
Source:
PHYSICAL REVIEW LETTERS 102 (18): Art. No. 184501 MAY 8 2009
Language:
English
Document Type:
Article
KeyWords Plus:
CARBON NANOTUBES; ION-TRANSPORT; NANOFLUIDICS; PRESSURE; LIQUID; WATER
Abstract:
In both experiment and molecular simulation, it is found that a higher pressure is required to sustain the infiltration of smaller ions in a molecular-sized nanochannel. Simulations indicate that the effective ion solubility of the infiltrated liquid is reduced to nearly zero. Because of the strong interactions between the ion couples and the solid or liquid phases, an external force is required to continuously advance the confined liquid segment. The competition between the probability of ion entry and ion-couple formation causes the observed ion-size-dependent characteristics.
Reprint Address:
Qiao, Y, Univ Calif San Diego, Dept Struct Engn, La Jolla, CA 92093 USA.
Research Institution addresses:
[Lu, Weiyi; Han, Aijie; Qiao, Yu] Univ Calif San Diego, Dept Struct Engn, La Jolla, CA 92093 USA; [Liu, Ling; Chen, Xi] Columbia Univ, Sch Engn & Appl Sci, New York, NY 10027 USA
E-mail Address:
yqiao@ucsd.edu
Cited References:
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Cited Reference Count:
28
Times Cited:
0
Publisher:
AMER PHYSICAL SOC; ONE PHYSICS ELLIPSE, COLLEGE PK, MD 20740-3844 USA
Subject Category:
Physics, Multidisciplinary
ISSN:
0031-9007
DOI:
10.1103/PhysRevLett.102.184501
IDS Number:
443ZF
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Title:
Nanofluidic Transport in Branching Nanochannels: A Molecular Sieve Based on Y-Junction Nanotubes
Authors:
Liu, L; Chen, X
Author Full Names:
Liu, Ling; Chen, Xi
Source:
JOURNAL OF PHYSICAL CHEMISTRY B 113 (18): 6468-6472 MAY 7 2009
Language:
English
Document Type:
Article
KeyWords Plus:
CARBON NANOTUBES; FLOW-CONTROL; FORCE-FIELD; FLUID-FLOW; NANOPORES; NETWORKS; DYNAMICS; SURFACE; LIQUID; WATER
Abstract:
Using molecular dynamics (MD) simulations, we study the fundamental partitioning and screening behaviors of nanofluids confined in Y-junction nanochannels, and demonstrate their feasibility as efficient molecular sieves. A flow of gas or liquid molecules is partitioned at the junction and separated into the two side branches with different volume fractions. The opening-gaps of the side branches are manipulated, and the sieve characteristics are explored as the gas phase, mixture composition/ratio, and opening dimensions are varied. The studies provide design principles for a molecular sieve with maximum probability passing one type of molecule into a screening branch, and meanwhile maximizing the rejection rate of other types of molecules.
Reprint Address:
Chen, X, Columbia Univ, Columbia Nanomech Res Ctr, Sch Engn & Appl Sci, Mail Code 4709, New York, NY 10027 USA.
Research Institution addresses:
[Liu, Ling; Chen, Xi] Columbia Univ, Columbia Nanomech Res Ctr, Sch Engn & Appl Sci, New York, NY 10027 USA
E-mail Address:
xichen@civil.columbia.edu
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Cited Reference Count:
48
Times Cited:
0
Publisher:
AMER CHEMICAL SOC; 1155 16TH ST, NW, WASHINGTON, DC 20036 USA
Subject Category:
Chemistry, Physical
ISSN:
1520-6106
DOI:
10.1021/jp900721h
IDS Number:
440FZ
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Title:
Membrane Gas Separation: A Review/State of the Art
Authors:
Bernardo, P; Drioli, E; Golemme, G
Author Full Names:
Bernardo, P.; Drioli, E.; Golemme, G.
Source:
INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH 48 (10): 4638-4663 MAY 20 2009
Language:
English
Document Type:
Review
KeyWords Plus:
MIXED-MATRIX MEMBRANES; MOLECULAR-SIEVE MEMBRANES; CARBON NANOTUBE MEMBRANES; HOLLOW-FIBER MEMBRANES; INTRINSIC MICROPOROSITY PIMS; POLYMER-CHAIN RIGIDIFICATION; FACILITATED OLEFIN TRANSPORT; PORE-PLUGGING SYNTHESIS; MFI-ALUMINA MEMBRANES; FAST MASS-TRANSPORT
Abstract:
In the last years membrane processes for gas separation are gaining a larger acceptance in industry and in the market are competing with consolidated operations such as pressure swing absorption and cryogenic distillation. The key for new applications of membranes in challenging and harsh environments (e.g., petrochemistry) is the development of new tough, high performance materials. The modular nature of membrane operations is intrinsically fit for process intensification, and this versatility might be a decisive factor to impose membrane processes in most gas separation fields, in a similar way as today membranes represent the main technology for water treatment. This review highlights the most promising areas of research in gas separation, by considering the materials for membranes, the industrial applications of membrane gas separations, and finally the opportunities for the integration of membrane gas separation units in hybrid systems for the intensification of process!
es.
Reprint Address:
Drioli, E, Univ Calabria, ITM, CNR, Via Pietro Bucci,Cubo 17-C, I-87030 Arcavacata Di Rende, Italy.
Research Institution addresses:
[Bernardo, P.; Drioli, E.; Golemme, G.] Univ Calabria, ITM, CNR, I-87030 Arcavacata Di Rende, Italy; [Drioli, E.; Golemme, G.] Univ Calabria, Dept Chem Engn & Mat, I-87036 Arcavacata Di Rende, Italy; [Drioli, E.; Golemme, G.] Univ Calabria, INSTM Consortium, I-87036 Arcavacata Di Rende, Italy
E-mail Address:
e.drioli@itm.cnr.it
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Cited Reference Count:
271
Times Cited:
0
Publisher:
AMER CHEMICAL SOC; 1155 16TH ST, NW, WASHINGTON, DC 20036 USA
Subject Category:
Engineering, Chemical
ISSN:
0888-5885
DOI:
10.1021/ie8019032
IDS Number:
445WD
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