Cited Article: Holt JK. Fast mass transport through sub-2-nanometer carbon nanotubes
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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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*Record 1 of 2.
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AU Suk, ME
Aluru, NR
AF Suk, M. E.
Aluru, N. R.
TI Effect of induced electric field on single-file reverse osmosis
SO PHYSICAL CHEMISTRY CHEMICAL PHYSICS
LA English
DT Article
ID BORON-NITRIDE NANOTUBE; WATER PERMEATION; MOLECULAR SIMULATION; CARBON
NANOTUBES; ELECTROLYTE-SOLUTIONS; ION-TRANSPORT; SLAB GEOMETRY;
DYNAMICS; ELCTROOSMOSIS; CHANNEL
AB We investigated the effect of the electric field on single-file reverse
osmosis (RO) water flux using molecular dynamics simulations. The
electric field is generated by introducing oppositely charged
biomolecules to the salt solution and pure water chambers attached to
the nanopore. Simulation results indicate that an electric field in the
direction of RO enhances the water flux while in the direction opposite
to RO it suppresses the water flux. When the RO water flux is enhanced,
the single-file water dipoles are aligned in the direction of the
electric field. The addition of an electric field in the direction of
RO led to a flux of 3 water molecules ns(-1) by constantly maintaining
water dipole vectors in the direction of the electric field, and this
water flux is superimposed on the pressure driven water flux.
C1 [Suk, M. E.; Aluru, N. R.] Univ Illinois, Beckman Inst Adv Sci & Technol, Dept Mech Sci & Engn, Urbana, IL 61801 USA.
RP Aluru, NR, Univ Illinois, Beckman Inst Adv Sci & Technol, Dept Mech Sci
& Engn, Urbana, IL 61801 USA.
EM aluru@illinois.edu
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NR 38
TC 0
PU ROYAL SOC CHEMISTRY; THOMAS GRAHAM HOUSE, SCIENCE PARK, MILTON RD,
CAMBRIDGE CB4 0WF, CAMBS,
ENGLAND
SN 1463-9076
DI 10.1039/b903541a
VL 11
IS 38
BP 8614
EP 8619
SC Chemistry, Physical; Physics, Atomic, Molecular & Chemical
GA 498KL
UT ISI:000270138700028
ER
PT J
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AU Xu, Y
Mi, XB
Aluru, NR
AF Xu, Yang
Mi, Xiaobing
Aluru, N. R.
TI Detection of defective DNA in carbon nanotubes by combined molecular
dynamics/tight-binding technique
SO APPLIED PHYSICS LETTERS
LA English
DT Article
ID WATER; CHANNEL; SIMULATION; NANOPORE; FLOW
AB A tight-binding method combined with molecular dynamics (MD) is used to
investigate the electrostatic signals generated by DNA segments inside
short semiconducting single-wall carbon nanotubes (CNTs). The
trajectories of DNA, ions, and waters, obtained from MD, are used in
the tight-binding method to compute the electrostatic potential. The
electrostatic signals indicate that when the DNA translocates through
the CNT, it is possible to identify the total number of base pairs and
the relative positions of the defective base pairs in DNA chains. Our
calculations suggest that it is possible to differentiate Dickerson and
hairpin DNA structures by comparing the signals. (C) 2009 American
Institute of Physics. [doi: 10.1063/1.3231922]
C1 [Xu, Yang; Mi, Xiaobing; Aluru, N. R.] Univ Illinois, Urbana, IL 61801 USA.
RP Aluru, NR, Univ Illinois, Urbana, IL 61801 USA.
EM aluru@illinois.edu
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NR 28
TC 0
PU AMER INST PHYSICS; CIRCULATION & FULFILLMENT DIV, 2 HUNTINGTON
QUADRANGLE, STE 1 N O 1,
MELVILLE, NY 11747-4501 USA
SN 0003-6951
DI 10.1063/1.3231922
PD SEP 14
VL 95
IS 11
AR 113116
SC Physics, Applied
GA 497XC
UT ISI:000270096900075
ER
EF
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