Characterization of a Novel Self-Association of an Alternating Copolymer into Nanotubes in Solution

ABOUT | COURSES | EVENTS | PUBLICATIONS | LEADERSHIP | OUTREACH | NEWS | PRESS | JOBS |

Nanotechnology Solutions

Nanotech 2008 CDROM

Nanotech 2007 CDROM

Nanotech 2006 CDROM

Nanotech 2005 CDROM

Nanotech 2004 CDROM

3 CDROM Special Offer

Nanotech 2008 Vol. 1

Nanotech 2008 Vol. 2

Nanotech 2008 Vol. 3

Nanotech 2007 Vol. 1

Nanotech 2007 Vol. 2

Nanotech 2007 Vol. 3

Nanotech 2007 Vol. 4

Nanotech 2006 Vol. 1

Nanotech 2006 Vol. 2

Nanotech 2006 Vol. 3

Nanotech 2005 Vol. 1

Nanotech 2005 Vol. 2

Nanotech 2005 Vol. 3

Nanotech 2004 Vol. 1

Nanotech 2004 Vol. 2

Nanotech 2004 Vol. 3

Nanotech 2003 Vol. 1

Nanotech 2003 Vol. 2

Nanotech 2003 Vol. 3

Nanotech 2002 Vol. 1

Nanotech 2002 Vol. 2

Nanotech 2001 Vol. 1

Nanotech 2001 Vol. 2

Index of Authors

Index of Keywords

Index of Affiliations

Library Request Form

Publications
Nanotech 2004 Vol. 3

	Nanotech 2004 Vol. 3 Technical Proceedings of the 2004 NSTI Nanotechnology Conference and Trade Show, Volume 3 Chapter 6: Nano Composites
	Characterization of a Novel Self-Association of an Alternating Copolymer into Nanotubes in Solution
Authors:	C. Malardier-Jugroot, T.G.M. van de Ven and M.A. Whitehead
Affilation:	McGill University, CA
Pages:	276 - 279
Keywords:	alternating copolymer, self-assembly, quantum mechanics, cryo-transmission electron microscopy, neutron scattering
Abstract:	The characterisation of the association of an alternating copolymer was performed using theoretical methods (quantum mechanics and molecular mechanics) and experimental methods (cryo-Transmission Electron Microscopy, Neutron Reflectivity and Neutron Scattering). The most stable conformation obtained for the self-association at pH 7 using theoretical methods is a tubular structure in which eight SMA molecules make one twist of a helix. The tubes can grow in length by continued regular stacking of benzene rings. The nanotubes have inner and outer diameters of about 28 and 41 Å respectively. The hydrophobic groups are mainly located inside the tube and the hydrophilic groups are mainly on the exterior surface of the tube. They can also associate with themselves creating planes of aligned tubes, which can stack upon each other. The association of alternated copolymer into nanotubes has not been recognized before to the best of our knowledge(1). The association of SMA octamers into a tubular structure at pH7 was confirmed experimentally by cryo-TEM and the nanotubes observed were several micrometers long. The shape as well as the inner and outer diameter of the nanotubes were also characterised by neutron scattering and the conformation at the air-water interface by neutron reflectivity.
ISBN:	0-9728422-9-2
Pages:	561
Hardcopy:	$150.00

Order:	Mail/Fax Form
Special:	3 CD Set — 15% off with Free Shipping
Up

Upcoming Events

nanoPRwire™

News Headlines

Breaking News

Nanotech Week

© Nano Science and Technology Institute About NSTI | Terms of Use | Privacy Policy | Contact