ISI Web of Knowledge Alert - Holt JK

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Cited Article: Holt JK. Fast mass transport through sub-2-nanometer carbon nanotubes
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AU Yamazaki, T
Fenniri, H
Kovalenko, A
AF Yamazaki, Takeshi
Fenniri, Hicham
Kovalenko, Andriy
TI Structural Water Drives Self-assembly of Organic Rosette Nanotubes and
Holds Host Atoms in the Channel
SO CHEMPHYSCHEM
LA English
DT Article
DE molecular theory of solvation; rosette nanotube; self-assembly; solvent
effects; water channel
ID CARBON NANOTUBES; FUNCTIONALIZED XENON; BIOLOGICAL WATER;
MOLECULAR-BASIS; PROTEIN; TRANSPORT; CONDUCTION; SOLVATION; BIOSENSOR;
MEMBRANES
AB We reveal how water solvent determines the self-assembly pathway and
stability of organic rosette nanotubes (RNTs) and show their possible
functions, using three-dimensional molecular theory of solvation
(a.k.a. 3D-RISM). Structural water molecules penetrate the pockets on
the RNT outer surface, form a wetting monolayer in the RNT channel and
bridge RNT rosettes. We predict that the inner water shell might
stabilizer rare gas atoms inside the RNT channel, and envision
molecular devices with RNT channels transporting water or holding guest
molecules for targeted delivery.
C1 [Fenniri, Hicham] Univ Alberta, Dept Chem, Edmonton, AB T6G 2M9, Canada.
[Yamazaki, Takeshi; Fenniri, Hicham; Kovalenko, Andriy] Natl Inst Nanotechnol, Edmonton, AB T6G 2M9, Canada.
[Kovalenko, Andriy] Univ Alberta, Dept Mech Engn, Edmonton, AB T6G 2M9, Canada.
RP Fenniri, H, Univ Alberta, Dept Chem, 11421 Saskatchewan Dr, Edmonton,
AB T6G 2M9, Canada.
EM hicham.fenniri@ualberta.ca
andriy.kovalenko@nrc-cnrc.gc.ca
CR AGRE P, 1998, J BIOL CHEM, V273, P14659
BORGNIA M, 1999, ANNU REV BIOCHEM, V68, P425
CASANOVA D, 2007, J CHEM THEORY COMPUT, V3, P458, DOI 10.1021/ct6001785
CHUN AL, 2004, NANOTECHNOLOGY, V15, S234, DOI 10.1088/0957-4484/15/4/022
CHUN AL, 2005, BIOMATERIALS, V26, P7304, DOI
10.1016/j.biomaterials.2005.05.080
DILL KA, 2005, ANNU REV BIOPH BIOM, V34, P173
DOYLE DA, 1998, SCIENCE, V280, P69
FENNIRI H, 2001, J AM CHEM SOC, V123, P3854, DOI 10.1021/ja0058861
FENNIRI H, 2002, J AM CHEM SOC, V124, P11064, DOI 10.1021/ja026164s
FENNIRI H, 2002, P NATL ACAD SCI U S2, V99, P6487
HIGGINS CF, 1992, ANNU REV CELL BIOL, V8, P67
HOLT JK, 2006, SCIENCE, V312, P1034, DOI 10.1126/science.1126298
HUMMER G, 2001, NATURE, V414, P188
IMAI T, 2005, J AM CHEM SOC, V127, P15334, DOI 10.1021/ja054434b
JOHNSON RS, 2007, J AM CHEM SOC, V129, P5735, DOI 10.1021/ja0706192
JOSEPH S, 2008, NANO LETT, V8, P452, DOI 10.1021/nl072385q
KALRA A, 2003, P NATL ACAD SCI USA, V100, P10175
KOLESNIKOV AI, 2004, PHYS REV LETT, V93, ARTN 035503
KOVALENKO A, 2003, UNDERS CH R, V24, P169
LEVY Y, 2006, ANNU REV BIOPH BIOM, V35, P389, DOI
10.1146/annurev.biophys.35.040405.102134
MAJUMDER M, 2005, NATURE, V438, P44, DOI 10.1038/43844a
MORALEZ JG, 2005, J AM CHEM SOC, V127, P8307, DOI 10.1021/ja051496t
NAGUIB N, 2004, NANO LETT, V4, P2237, DOI 10.1021/nl0484907
NANDI N, 1997, J PHYS CHEM B, V101, P10954
PAL SK, 2002, J PHYS CHEM B, V106, P12376, DOI 10.1021/jp0213506
PAVLOVSKAYA GE, 2005, P NATL ACAD SCI USA, V102, P18275
PRESTON GM, 1992, SCIENCE, V256, P385, DOI 10.1126/SCIENCE.256.5055.385
ROTHMAN JE, 1994, NATURE, V372, P55
SCHATZ G, 1996, SCIENCE, V271, P1519
SPENCE MM, 2001, P NATL ACAD SCI USA, V98, P10654
SPENCE MM, 2004, J AM CHEM SOC, V126, P15287, DOI 10.1021/ja0483037
TEETER MM, 1991, ANNU REV BIOPHYS BIO, V20, P577
TIKHOMIROV G, 2008, LANGMUIR, V24, P4447, DOI 10.1021/la8001114
WHITESIDES GM, 2006, NATURE, V442, P368, DOI 10.1038/nature05058
NR 34
TC 0
PU WILEY-V C H VERLAG GMBH; PO BOX 10 11 61, D-69451 WEINHEIM, GERMANY
SN 1439-4235
DI 10.1002/cphc.200900324
PD FEB 1
VL 11
IS 2
BP 361
EP 367
SC Chemistry, Physical; Physics, Atomic, Molecular & Chemical
GA 559RI
UT ISI:000274843500007
ER

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AU Bocquet, L
Charlaix, E
AF Bocquet, Lyderic
Charlaix, Elisabeth
TI Nanofluidics, from bulk to interfaces
SO CHEMICAL SOCIETY REVIEWS
LA English
DT Review
ID SOLID-STATE NANOPORES; HYDRODYNAMIC BOUNDARY-CONDITIONS; THIN
LIQUID-FILMS; CARBON NANOTUBES; HYDROPHOBIC SURFACES; SMOOTH SURFACES;
TRANSPORT PHENOMENA; ENERGY-CONVERSION; WATER TRANSPORT; FLOW
AB Nanofluidics has emerged recently in the footsteps of microfluidics,
following the quest for scale reduction inherent to nanotechnologies.
By definition, nanofluidics explores transport phenomena of fluids at
nanometer scales. Why is the nanometer scale specific? What fluid
properties are probed at nanometric scales? In other words, why does
'nanofluidics' deserve its own brand name? In this critical review, we
will explore the vast manifold of length scales emerging for fluid
behavior at the nanoscale, as well as the associated mechanisms and
corresponding applications. We will in particular explore the interplay
between bulk and interface phenomena. The limit of validity of the
continuum approaches will be discussed, as well as the numerous surface
induced effects occurring at these scales, from hydrodynamic slippage
to the various electro-kinetic phenomena originating from the couplings
between hydrodynamics and electrostatics. An enlightening analogy
between ion transport in nanochannels and transport in doped
semi-conductors will be discussed (156 references).
C1 [Bocquet, Lyderic] Univ Lyon 1, Lab Phys Matiere Condensee & Nanostruct, F-69622 Villeurbanne, France.
CNRS, UMR 5586, F-69622 Villeurbanne, France.
RP Bocquet, L, Univ Lyon 1, Lab Phys Matiere Condensee & Nanostruct, 43
Bvd 11 Nov 1918, F-69622 Villeurbanne, France.
EM lyderic.bocquet@univ-lyon1.fr
CR ABECASSIS B, 2008, NAT MATER, V7, P785, DOI 10.1038/nmat2254
AJDARI A, 2006, PHYS REV LETT, V96, ARTN 186102
ANDELMAN D, 1995, HDB BIOL PHYS, V1
ANDERSON JL, 1989, ANNU REV FLUID MECH, V21, P61
BARRAT JL, 1994, PHYS REV E, V49, P3079
BARRAT JL, 1999, FARADAY DISCUSS, V112, P119
BECKER J, 2003, NAT MATER, V2, P59, DOI 10.1038/nmat788
BECKER T, 2003, PHYS REV LETT, V91, ARTN 166104
BEREZHKOVSKII A, 2002, PHYS REV LETT, V89, UNSP 064503
BEZRUKOV SM, 1994, NATURE, V370, P279
BEZRUKOV SM, 1996, MACROMOLECULES, V29, P8517
BOCQUET L, 1993, PHYS REV LETT, V70, P2726
BOCQUET L, 1997, J STAT PHYS, V87, P1005
BOCQUET L, 2007, SOFT MATTER, V3, P685, DOI 10.1039/b616490k
BONACCURSO E, 2002, PHYS REV LETT, V88, P76103, UNSP 076103-4
BORGNIA MJ, 2001, P NATL ACAD SCI USA, V98, P2888
BORKENT BM, 2007, PHYS REV LETT, V98, ARTN 204502
BOUZIGUES CI, 2008, PHYS REV LETT, V101, ARTN 114503
BRUNET E, 2004, PHYS REV E 2, V69, ARTN 016306
BUCH V, 2007, P NATL ACAD SCI USA, V104, P7342, DOI
10.1073/pnas.0611285104
CHAN DYC, 1985, J CHEM PHYS, V83, P5311
CHOU T, 1998, PHYS REV LETT, V80, P85
CHOU T, 1999, PHYS REV LETT, V82, P3552
CHURAEV NV, 2002, ADV COLLOID INTERFAC, V96, P265
CIEPLAK M, 2001, PHYS REV LETT, V86, P803
COTTINBIZONNE C, 2003, NAT MATER, V2, P238
COTTINBIZONNE C, 2005, PHYS REV LETT, V94, ARTN 056102
COTTINBIZONNE C, 2008, LANGMUIR, V24, P1165, DOI 10.1021/la7024044
CRAIG VSJ, 2001, PHYS REV LETT, V87, ARTN 054504
DAIGUJI H, 2004, NANO LETT, V4, P137, DOI 10.1021/nl0348185
DAVIDOVITCH B, 2005, PHYS REV LETT, V95, ARTN 244505
DEGENNES PG, 1979, SCALING CONCEPTS POL
DEGROOT SR, 1969, NONEQUILIBRIUM THERM
DEKKER C, 2007, NAT NANOTECHNOL, V2, P209, DOI 10.1038/nnano.2007.27
DELLAGO C, 2003, PHYS REV LETT, V90, ARTN 105902
DUCKER WA, 2009, LANGMUIR, V25, P8907, DOI 10.1021/la902011v
DUEZ C, 2007, NAT PHYS, V3, P180, DOI 10.1038/nphys545
DUHR S, 2006, P NATL ACAD SCI USA, V103, P19678, DOI
10.1073/pnas.0603873103
EBEL JP, 1988, LANGMUIR, V4, P396
EGGERS J, 2002, PHYS REV LETT, V89, ARTN 084502
EIJKEL JCT, 2005, MICROFLUID NANOFLUID, V1, P249, DOI
10.1007/s10404-004-0012-9
EVANS DJ, 1993, PHYS REV LETT, V71, P2401
GE ZB, 2006, PHYS REV LETT, V96, ARTN 186101
GEORGES JM, 1993, J CHEM PHYS, V98, P7345
GOYON J, 2008, NATURE, V454, P84, DOI 10.1038/nature07026
GRUN G, 2006, J STAT PHYS, V122, P1261, DOI 10.1007/s10955-006-9028-8
HAN J, 2000, SCIENCE, V288, P1026
HANSEN JS, 2007, PHYS REV E 1, V76, ARTN 041121
HELFAND E, 1960, PHYS REV, V119, P1
HENRY CL, 2009, PHYS CHEM CHEM PHYS, V11, P9514, DOI 10.1039/b908142a
HOLT JK, 2006, SCIENCE, V312, P1034, DOI 10.1126/science.1126298
HONIG CDF, 2007, PHYS REV LETT, V98, ARTN 028305
HORINEK D, 2007, PHYS REV LETT, V99, ARTN 226104
HORINEK D, 2009, CHEM PHYS LETT, V479, P173, DOI
10.1016/j.cplett.2009.07.077
HUANG DM, 2007, PHYS REV LETT, V98, ARTN 177801
HUANG DM, 2008, LANGMUIR, V24, P1442, DOI 10.1021/la7021787
HUANG DM, 2008, PHYS REV LETT, V101, ARTN 064503
HUANG DM, 2008, PHYS REV LETT, V101, ARTN 226101
HUANG P, 2006, J FLUID MECH, V566, P447, DOI 10.1017/S0022112006002229
HUANG P, 2009, J FLUID MECH, V637, P241, DOI 10.1017/S0022112009990656
HUMMER G, 2001, NATURE, V414, P188
HUNTER RJ, 2001, FDN COLLOID SCI
ISRAELACHVILI J, 1996, NATURE, V379, P219
ISRAELACHVILI JN, 1976, NATURE, V262, P774
ISRAELACHVILI JN, 1986, J COLLOID INTERF SCI, V110, P263
JIANG HR, 2009, PHYS REV LETT, V101, UNSP 208301
JOLY L, 2004, PHYS REV LETT, V93, ARTN 257805
JOLY L, 2006, PHYS REV LETT, V96, ARTN 046101
JOSEPH P, 2005, PHYS REV E 2, V71, ARTN 035303
JOSEPH P, 2006, PHYS REV LETT, V97, ARTN 156104
JOSEPH S, 2008, NANO LETT, V8, P452, DOI 10.1021/nl072385q
JUNGWIRTH P, 2006, CHEM REV, V106, P1259, DOI 10.1021/cr0403741
KALRA A, 2003, P NATL ACAD SCI USA, V100, P10175
KARNIK R, 2005, NANO LETT, V5, P1638, DOI 10.1021/nl050966e
KARNIK R, 2005, NANO LETT, V5, P943, DOI 10.1021/nl050493b
KARNIK R, 2007, NANO LETT, V7, P547, DOI 10.1021/nl062806o
KASIANOWICZ JJ, 1996, P NATL ACAD SCI USA, V93, P13770
KEDEM O, 1961, J GEN PHYSIOL, V45, P143
KEDEM O, 1963, T FARADAY SOC, V59, P1941
KHAIR AS, 2008, J FLUID MECH, V615, P323, DOI 10.1017/S002211200800390X
KITTEL C, 1976, INTRO SOLID STATE PH
KUNZ W, 2004, CURR OPIN COLLOID IN, V9, P19, DOI
10.1016/j.cocis.2004.05.005
LANDAU LD, 1958, STAT PHYS
LASNE D, 2008, PHYS REV LETT, V100, ARTN 214502
LAUGA E, 2005, MICROFLUIDICS NOSLIP, CH15
LEE C, 2008, PHYS REV LETT, V101, ARTN 064501
LENG YS, 2005, PHYS REV LETT, V94, ARTN 026101
LEVIN Y, 2003, J PHYS-CONDENS MAT, V15, S3523
LEVINE S, 1975, J CHEM SOC F2, P711
LEVITT DG, 1973, PHYS REV A, V8, P3050
LI TD, 2007, PHYS REV B, V75, ARTN 115415
LUMMA D, 2003, SOFT MATTER PHYS, V67, UNSP 056313
MAALI A, 2006, APPL PHYS LETT, V88, ARTN 163504
MAALI A, 2006, PHYS REV LETT, V96, ARTN 086105
MAALI A, 2008, APPL PHYS LETT, V92, ARTN 053101
MAJUMDER M, 2005, NATURE, V438, P44, DOI 10.1038/43844a
MERABIA S, 2009, P NATL ACAD SCI USA, V106, P15113, DOI
10.1073/pnas.0901372106
MORTHOMAS J, 2009, J PHYS-CONDENS MAT, V21, ARTN 035103
MOSELER M, 2000, SCIENCE, V289, P1165
MULLER VM, 1986, COLLOID J USSR, V48, P718
MURATA K, 2000, NATURE, V407, P599
NAVIER CLM, 1823, MEMOIRES ACAD ROYALE, V6, P389
NETO C, 2005, REP PROG PHYS, V68, P2859, DOI 10.1088/0034-4885/68/12/R05
OU J, 2005, PHYS FLUIDS, V17, ARTN 103606
OUKHALED J, 2007, PHYS REV LETT, V98, UNSP 158101
PENNATHUR S, 2007, LAB CHIP, V7, P1234, DOI 10.1039/b712893m
PIAZZA R, 2008, SOFT MATTER, V4, P1740, DOI 10.1039/b805888c
PIT R, 2000, PHYS REV LETT, V85, P980
PLECIS A, 2005, NANO LETT, V5, P1147, DOI 10.1021/nl050265h
PLECIS A, 2008, ANAL CHEM, V80, P9542, DOI 10.1021/ac8017907
PRIEZJEV NV, 2004, PHYS REV LETT, V92, ARTN 018302
PU QS, 2004, NANO LETT, V4, P1099, DOI 10.1021/nl0494811
QIAO R, 2004, PHYS REV LETT, V92, ARTN 198301
RASAIAH JC, 2008, ANNU REV PHYS CHEM, V59, P713, DOI
10.1146/annurev.physchem.59.032607.093815
RAVIV U, 2002, SCIENCE, V297, P1540
REN YQ, 2008, NANOTECHNOLOGY, V19, ARTN 195707
RITORT F, 2006, J PHYS-CONDENS MAT, V18, R531, DOI
10.1088/0953-8984/18/32/R01
ROUZINA I, 1996, J PHYS CHEM-US, V100, P9977
SADR R, 2006, APPL PHYS LETT, V89, ARTN 044103
SAUGEY A, 2005, J PHYS-CONDENS MAT, V17, S4075, DOI
10.1088/0953-8984/17/49/005
SCHASFOORT RBM, 1999, SCIENCE, V286, P942
SCHMATKO T, 2005, PHYS REV LETT, V94, ARTN 244501
SCHOCH RB, 2008, REV MOD PHYS, V80, P839, DOI 10.1103/RevModPhys.80.839
SENDNER C, 2009, LANGMUIR, V25, P10768, DOI 10.1021/la901314b
SIWY Z, 2002, PHYS REV LETT, V89, ARTN 198103
SIWY Z, 2005, PHYS REV LETT, V94, ARTN 048102
SMEETS RMM, 2008, P NATL ACAD SCI USA, V105, P417, DOI
10.1073/pnas.0705349105
SQUIRES TM, 2008, PHYS FLUIDS, V20, ARTN 092105
STEIN D, 2004, PHYS REV LETT, V93, ARTN 035901
STEINBERGER A, 2007, NAT MATER, V6, P665, DOI 10.1038/nmat1962
STEINBERGER A, 2008, PHYS REV LETT, V100, ARTN 134501
SUI HX, 2001, NATURE, V414, P872
THOMAS JA, 2008, NANO LETT, V8, P2788, DOI 10.1021/nl8013617
THOMAS JA, 2009, PHYS REV LETT, V102, ARTN 184502
THOMPSON PA, 1990, PHYS REV A, V41, P6830
TRETHEWAY DC, 2002, PHYS FLUIDS, V14, L9
VANDERHEYDEN FHJ, 2006, NANO LETT, V6, P2232, DOI 10.1021/nl061524l
VANDERHEYDEN FHJ, 2007, NANO LETT, V7, P1022, DOI 10.1021/nl070194h
VANDORP S, 2009, NAT PHYS, V5, P347, DOI 10.1038/NPHYS1230
VANZON R, 2003, PHYS REV LETT, V91, ARTN 110601
VANZON R, 2004, PHYS REV LETT, V92, ARTN 130601
VINOGRADOVA OI, 1995, LANGMUIR, V11, P2213
VINOGRADOVA OI, 2001, REV SCI INSTRUM, V72, P2330
VINOGRADOVA OI, 2009, PHYS REV LETT, V102, ARTN 118302
WALZ T, 1994, J BIOL CHEM, V269, P1583
WANG YC, 2005, ANAL CHEM, V77, P4293, DOI 10.1021/ac050321z
WHITBY M, 2008, NANO LETT, V8, P2632, DOI 10.1021/nl080705f
WURGER A, 2008, PHYS REV LETT, V101, ARTN 108302
YANG SJ, 2007, LANGMUIR, V23, P7072, DOI 10.1021/la070004i
YBERT C, 2007, PHYS FLUIDS, V19, ARTN 123601
YERMIYAHU U, 2007, SCIENCE, V318, P920, DOI 10.1126/science.1146339
ZHAO YC, 2008, ADV MATER, V20, P1772, DOI 10.1002/adma.200702956
ZHU YX, 2001, PHYS REV LETT, V87, ARTN 096105
NR 153
TC 1
PU ROYAL SOC CHEMISTRY; THOMAS GRAHAM HOUSE, SCIENCE PARK, MILTON RD,
CAMBRIDGE CB4 0WF, CAMBS,
ENGLAND
SN 0306-0012
DI 10.1039/b909366b
VL 39
IS 3
BP 1073
EP 1095
SC Chemistry, Multidisciplinary
GA 560RR
UT ISI:000274920300015
ER

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