The Two-Layer ONIOM Technique in the Studies of Chemical Reactions on Carbon Nanotube Tips

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. 2

	Nanotech 2004 Vol. 2 Technical Proceedings of the 2004 NSTI Nanotechnology Conference and Trade Show, Volume 2 Chapter 8: Computational Methods and Numerics
	The Two-Layer ONIOM Technique in the Studies of Chemical Reactions on Carbon Nanotube Tips
Authors:	V.A. Basiuk and E.V. Basiuk
Affilation:	Universidad Nacional Autonoma de Mexico, MX
Pages:	395 - 398
Keywords:	carbon nanotubes, chemical reactions, ONIOM, molecular mechanics, semi-empirical, DFT
Abstract:	In continuation of our combined quantum mechanics/molecular mechanics (QM/MM) studies of selective amidation (reaction 1) and esterification (reaction 2) of monocarboxy-substituted tips of zigzag and armchair single-walled carbon nanotube (SWNTs), we studied theoretically the interaction of simple aliphatic amines with carboxylated zigzag and armchair SWNT models. These reactions are extremely important in carbon nanotube derivatization, solubilization and purification. Our recent theoretical studies revealed energetic preferences of amide and ester formation on the armchair nanotubes as compared to their zigzag counterparts. In the present work, we used single-level MM+ molecular mechanics and AM1 semi-empirical method to study non-covalent interactions. To study reaction 1, the two-level ONIOM technique was employed where the higher level was treated with B3LYP/6-31G(d) DFT, and the lower level was described with either UFF molecular mechanics or AM1. Since we found that the use of AM1 for the lower-level description has serious limitations, to study theoretically chemical reactions on carbon nanotube tips with the ONIOM technique, where the higher level is treated with B3LYP density functional theory, we recommend UFF molecular mechanics versus AM1 semi-empirical method for the lower-level description.
ISBN:	0-9728422-8-4
Pages:	519
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