Switching intermolecular interactions by confinement in carbon nanotubes

T. W. Chamberlain; M. A. Lebedeva; W. Abuajwa; M. Suyetin; W. Lewis; E. Bichoutskaia; Martin Schröder; Andrei N. Khlobystov

doi:10.1039/C4CC08029G

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Switching intermolecular interactions by confinement in carbon nanotubes

Journal article

Peer reviewed

Switching intermolecular interactions by confinement in carbon nanotubes

T. W. Chamberlain, M. A. Lebedeva, W. Abuajwa, M. Suyetin, W. Lewis, E. Bichoutskaia, Martin Schröder and Andrei N. Khlobystov

Chemical Communications, Vol.51(4), pp.648-651

14/01/2015

DOI: https://doi.org/10.1039/C4CC08029G

PMID: 25415311

Abstract

Chemical Physics

Condensed Matter

Materials Science

Mesoscopic Systems

Physics

Quantum Hall Effect

The encapsulation of trityl-functionalised C molecules inside carbon nanotubes drastically affects the intermolecular interactions for this species. Whilst the orientations of molecules in the crystal are often controlled by thermodynamics, the molecular orientations in nanotubes are a result of kinetic control imposed by the mechanism of entry into and encapsulation within the nanotube.

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Title: Switching intermolecular interactions by confinement in carbon nanotubes
Creators - without role: T. W. Chamberlain - University of Nottingham
M. A. Lebedeva - University of Nottingham
W. Abuajwa - University of Nottingham
M. Suyetin - University of Nottingham
W. Lewis - University of Nottingham
E. Bichoutskaia - University of Nottingham
Martin Schröder - University of Nottingham
Andrei N. Khlobystov - University of Nottingham
Publication Details: Chemical Communications, Vol.51(4), pp.648-651
Publisher: Royal Society of Chemistry
Grant note: 277784 / European Commission (ec__________::EC)
Identifiers: 9945070408331
Academic Unit: King Abdullah University of Science & Technology
Language: English
Resource Type: Journal article