Coverart for item
The Resource Carbon nanotubes : from basic research to nanotechnology, edited by Valentin N. Popov and Philippe Lambin, (electronic book)

Carbon nanotubes : from basic research to nanotechnology, edited by Valentin N. Popov and Philippe Lambin, (electronic book)

Label
Carbon nanotubes : from basic research to nanotechnology
Title
Carbon nanotubes
Title remainder
from basic research to nanotechnology
Statement of responsibility
edited by Valentin N. Popov and Philippe Lambin
Creator
Contributor
Subject
Genre
Language
eng
Summary
Annotation
Member of
Cataloging source
GW5XE
Dewey number
620.5
Illustrations
illustrations
Index
index present
LC call number
QC176.8.N35
LC item number
N39 2005eb
Literary form
non fiction
http://bibfra.me/vocab/lite/meetingDate
2005
http://bibfra.me/vocab/lite/meetingName
NATO Advanced Study Institute on Carbon Nanotubes: From Basic Research to Nanotechnology
NAL call number
QC176.8.N35
NAL item number
N39 2005
Nature of contents
  • dictionaries
  • bibliography
http://library.link/vocab/relatedWorkOrContributorName
  • Popov, Valentin N
  • Lambin, Philippe
  • North Atlantic Treaty Organization
Series statement
NATO science series. Series II Mathematics, physics and chemistry
Series volume
v. 222
http://library.link/vocab/subjectName
  • Nanotubes
  • Carbon
  • Nanostructured materials
  • Tubes
Summary expansion
The book comprises reviews on various topics of carbon nanotube research from specialists in the field, together with reports on on-going research. Both are intended to give a detailed picture of the remarkable properties of these one-dimensional nanostructures. Particular attention is paid to the synthesis, characterization, properties, and application of nanotubes. The book will be an indispensable introduction for the newcomers in the field as well as a valuable update for researchers in the field, for it contains the most recent developments
Label
Carbon nanotubes : from basic research to nanotechnology, edited by Valentin N. Popov and Philippe Lambin, (electronic book)
Instantiates
Publication
Bibliography note
Includes bibliographical references and index
Carrier category
online resource
Carrier category code
cr
Carrier MARC source
rdacarrier
Color
multicolored
Content category
text
Content type code
txt
Content type MARC source
rdacontent
Contents
  • Non catalytic CVD growth of 2D-aligned carbon nanotubes
  • N.I. Maksimova
  • J. Engstler
  • J.J. Schneider
  • Pyrolytic synthesis of carbon nanotubes on Ni, Co, Fe/MCM-41 catalysts
  • K. Katok
  • S. Brichka
  • V. Tertykh
  • G. Prikhod'ko
  • grand canonical Monte Carlo simulation study of carbon structural and adsorption properties of in-zeolite templated carbon nanostructures
  • Note continued:
  • Th. J. Roussel
  • C. Bichara
  • R.J.M. Pellenq
  • Vibrational and related properties of carbon nanotubes
  • V.N. Popov
  • Ph. Lambin
  • Raman scattering of carbon nanotubes
  • H. Kuzmany
  • M. Hulman
  • R. Pfeiffer
  • Influence of the substrate types and treatments on carbon nanotube growth by chemical vapor deposition with nickel catalyst
  • F. Simon
  • Raman spectroscopy of isolated single-walled carbon nanotubes
  • Th. Michel
  • M. Paillet
  • Ph. Poncharal
  • A. Zahab
  • J.-L. Sauvajol
  • J.C. Meyer
  • S. Roth
  • Electronic transport in nanotubes and through junctions of nanotubes
  • R. Rizzoli
  • Ph. Lambin
  • F. Triozon
  • V. Meunier
  • Electronic transport in carbon nanotubes at the mesoscopic scale
  • S. Latil
  • F. Triozon
  • S. Roche
  • Wave packet dynamical investigation of STM imaging mechanism using an atomic pseudopotential model of a carbon nanotube
  • Geza I. Mark
  • Levente Tapaszto
  • R. Angelucci
  • Laszlo P. Biro
  • A. Mayer
  • Carbon nanotube films for optical absorption
  • E. Kovats
  • A. Pekker
  • S. Pekker
  • F. Borondics
  • K. Kamaras
  • Intersubband exciton relaxation dynamics in single-walled carbon nanotubes
  • C. Gadermaier
  • S. Guerri
  • C. Manzoni
  • A. Gambetta
  • G. Cerullo
  • G. Lanzani
  • E. Menna
  • M. Meneghetti
  • Peculiarities of the optical polarizability of single-walled zigzag carbon nanotube with capped and tapered ends
  • O.V. Ogloblya
  • G.M. Kuznetsova
  • F. Corticelli
  • M. Cuffiani
  • G. Veronese
  • S. Chung
  • Z.L. Miskovic
  • Local resistance of single-walled carbon nanotubes as measured by scanning probe techniques
  • B. Goldsmith
  • Ph. G. Collins
  • Band structure of carbon nanotubes embedded in a crystal matrix
  • P.N. D'yachkov
  • D.V. Makaev
  • Magnetotransport in 2-D arrays of single-wall carbon nanotubes
  • V.K. Ksenevich
  • Note continued:
  • J. Galibert
  • L. Forro
  • V.A. Samuilov
  • Computer modeling of the differential conductance of symmetry connected armchair-zigzag heterojunctions
  • O.V. Ogloblya
  • G.M. Kuznetsova
  • Molecular dynamics simulation of gas adsorption and absorption in nanotubes
  • A. Proykova
  • Third-order nonlinearity and plasmon properties in carbon nanotubes
  • A.M. Nemilentsau
  • A.A. Khrutchinskii
  • G. Ya. Slepyan
  • S.A. Maksimenko
  • Hydrodynamic modeling of fast ion interactions with carbon nanotubes
  • D.J. Mowbray
  • Vapour grown carbon nano-fibers -- polypropylene composites and their properties
  • V. Chirila
  • G. Marginean
  • W. Brandl
  • T. Iclanzan
  • Nanotechnology : challenges of convergence, heterogeneity and hierarchical integration
  • A. Vaseashta
  • Behavior of carbon nanotubes in biological systems
  • D.G. Kolomiyets
  • Molecular dynamics of carbon nanotube-polypeptide complexes at the biomembrane-water interface
  • Note continued:
  • K.V. Shaitan
  • Y.V. Tourleigh
  • D.N. Golik
  • Thermal conductivity enhancement of nanofluids
  • A. Cherkasova
  • J. Shan
  • Carbon nanotubes as advanced lubricant additives
  • F. Dassenoy
  • L. Joly-Pottuz
  • J.M. Martin
  • Synthesis and characterization of epoxy-single-wall carbon nanotube composites
  • T. Mieno
  • Synthesis and characterization of iron nanostructures inside porous zeolites and their applications in water treatment technologies
  • M. Vaclavikova
  • M. Matik
  • S. Jakabsky
  • S. Hredzak
  • G. Gallios
  • Nanostructured carbon growth by an expanding radiofrequency plasma jet
  • S.I. Vizireanu
  • B. Mitu
  • D. Vrbanic
  • R. Birjega
  • G. Dinescu
  • V. Teodorescu
  • Design and relative stability of multicomponent nanowires
  • T. Dumitrica
  • V. Barone
  • M. Hu
  • B.I. Yakobson
  • Modeling of molecular orbital and solid state packing polymer calculations on the bi-polaron nature of conducting sensor poly (p-phenylene)
  • I. Rabias
  • M. Marinsek
  • P. Dallas
  • D. Niarchos
  • S. Pejovnik
  • A. Anzlovar
  • P. Umek
  • D. Mihailovic
Control code
SPR209936677
Dimensions
unknown
Extent
1 online resource (xiii, 253 pages)
Form of item
online
Isbn
9781402045721
Media category
computer
Media MARC source
rdamedia
Media type code
c
Other physical details
illustrations.
Specific material designation
remote
Label
Carbon nanotubes : from basic research to nanotechnology, edited by Valentin N. Popov and Philippe Lambin, (electronic book)
Publication
Bibliography note
Includes bibliographical references and index
Carrier category
online resource
Carrier category code
cr
Carrier MARC source
rdacarrier
Color
multicolored
Content category
text
Content type code
txt
Content type MARC source
rdacontent
Contents
  • Non catalytic CVD growth of 2D-aligned carbon nanotubes
  • N.I. Maksimova
  • J. Engstler
  • J.J. Schneider
  • Pyrolytic synthesis of carbon nanotubes on Ni, Co, Fe/MCM-41 catalysts
  • K. Katok
  • S. Brichka
  • V. Tertykh
  • G. Prikhod'ko
  • grand canonical Monte Carlo simulation study of carbon structural and adsorption properties of in-zeolite templated carbon nanostructures
  • Note continued:
  • Th. J. Roussel
  • C. Bichara
  • R.J.M. Pellenq
  • Vibrational and related properties of carbon nanotubes
  • V.N. Popov
  • Ph. Lambin
  • Raman scattering of carbon nanotubes
  • H. Kuzmany
  • M. Hulman
  • R. Pfeiffer
  • Influence of the substrate types and treatments on carbon nanotube growth by chemical vapor deposition with nickel catalyst
  • F. Simon
  • Raman spectroscopy of isolated single-walled carbon nanotubes
  • Th. Michel
  • M. Paillet
  • Ph. Poncharal
  • A. Zahab
  • J.-L. Sauvajol
  • J.C. Meyer
  • S. Roth
  • Electronic transport in nanotubes and through junctions of nanotubes
  • R. Rizzoli
  • Ph. Lambin
  • F. Triozon
  • V. Meunier
  • Electronic transport in carbon nanotubes at the mesoscopic scale
  • S. Latil
  • F. Triozon
  • S. Roche
  • Wave packet dynamical investigation of STM imaging mechanism using an atomic pseudopotential model of a carbon nanotube
  • Geza I. Mark
  • Levente Tapaszto
  • R. Angelucci
  • Laszlo P. Biro
  • A. Mayer
  • Carbon nanotube films for optical absorption
  • E. Kovats
  • A. Pekker
  • S. Pekker
  • F. Borondics
  • K. Kamaras
  • Intersubband exciton relaxation dynamics in single-walled carbon nanotubes
  • C. Gadermaier
  • S. Guerri
  • C. Manzoni
  • A. Gambetta
  • G. Cerullo
  • G. Lanzani
  • E. Menna
  • M. Meneghetti
  • Peculiarities of the optical polarizability of single-walled zigzag carbon nanotube with capped and tapered ends
  • O.V. Ogloblya
  • G.M. Kuznetsova
  • F. Corticelli
  • M. Cuffiani
  • G. Veronese
  • S. Chung
  • Z.L. Miskovic
  • Local resistance of single-walled carbon nanotubes as measured by scanning probe techniques
  • B. Goldsmith
  • Ph. G. Collins
  • Band structure of carbon nanotubes embedded in a crystal matrix
  • P.N. D'yachkov
  • D.V. Makaev
  • Magnetotransport in 2-D arrays of single-wall carbon nanotubes
  • V.K. Ksenevich
  • Note continued:
  • J. Galibert
  • L. Forro
  • V.A. Samuilov
  • Computer modeling of the differential conductance of symmetry connected armchair-zigzag heterojunctions
  • O.V. Ogloblya
  • G.M. Kuznetsova
  • Molecular dynamics simulation of gas adsorption and absorption in nanotubes
  • A. Proykova
  • Third-order nonlinearity and plasmon properties in carbon nanotubes
  • A.M. Nemilentsau
  • A.A. Khrutchinskii
  • G. Ya. Slepyan
  • S.A. Maksimenko
  • Hydrodynamic modeling of fast ion interactions with carbon nanotubes
  • D.J. Mowbray
  • Vapour grown carbon nano-fibers -- polypropylene composites and their properties
  • V. Chirila
  • G. Marginean
  • W. Brandl
  • T. Iclanzan
  • Nanotechnology : challenges of convergence, heterogeneity and hierarchical integration
  • A. Vaseashta
  • Behavior of carbon nanotubes in biological systems
  • D.G. Kolomiyets
  • Molecular dynamics of carbon nanotube-polypeptide complexes at the biomembrane-water interface
  • Note continued:
  • K.V. Shaitan
  • Y.V. Tourleigh
  • D.N. Golik
  • Thermal conductivity enhancement of nanofluids
  • A. Cherkasova
  • J. Shan
  • Carbon nanotubes as advanced lubricant additives
  • F. Dassenoy
  • L. Joly-Pottuz
  • J.M. Martin
  • Synthesis and characterization of epoxy-single-wall carbon nanotube composites
  • T. Mieno
  • Synthesis and characterization of iron nanostructures inside porous zeolites and their applications in water treatment technologies
  • M. Vaclavikova
  • M. Matik
  • S. Jakabsky
  • S. Hredzak
  • G. Gallios
  • Nanostructured carbon growth by an expanding radiofrequency plasma jet
  • S.I. Vizireanu
  • B. Mitu
  • D. Vrbanic
  • R. Birjega
  • G. Dinescu
  • V. Teodorescu
  • Design and relative stability of multicomponent nanowires
  • T. Dumitrica
  • V. Barone
  • M. Hu
  • B.I. Yakobson
  • Modeling of molecular orbital and solid state packing polymer calculations on the bi-polaron nature of conducting sensor poly (p-phenylene)
  • I. Rabias
  • M. Marinsek
  • P. Dallas
  • D. Niarchos
  • S. Pejovnik
  • A. Anzlovar
  • P. Umek
  • D. Mihailovic
Control code
SPR209936677
Dimensions
unknown
Extent
1 online resource (xiii, 253 pages)
Form of item
online
Isbn
9781402045721
Media category
computer
Media MARC source
rdamedia
Media type code
c
Other physical details
illustrations.
Specific material designation
remote

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