JCE 2007 (84) 1201 [Jul] The Mechanism of Covalent Bonding: Analysis within the Hückel Model of Electronic Structure


	\| Subscriptions \| Software Orders \| Support \| Contributors \| Advertisers \|

JCE Print

Current Issue
Previous Issues
Supplements
Search JCE Index

JCE Digital Library

ChemInfo
DigiDemos
Featured Molecules
LivTexts
LrnCom
QBank
SymMath
WebWare

JCE Software

Latest Releases
Software & Video
Downloads
Support

Only@JCE Online

JCE Online Store
JCE HS CLIC
JCE Discussion Forums

Biographical Snapshots
ChemEd Resource Shelf
Featured Molecules
Hal's Picks
Project Chemlab
Reviewed WWW Sites
"Web-Ed" Articles

About JCE

Features
Publications
Operations
Outreach
Contact Us

Home > JCE Print > Journal of Chemical Education > Issues > 2007 > July >

Research: Science and Education

The Mechanism of Covalent Bonding: Analysis within the Hückel Model of Electronic Structure

Sture Nordholm and Andreas Bäck
Department of Chemistry, Göteborg University, SE-412 96 Göteborg, Sweden

George B. Bacskay
School of Chemistry, University of Sydney, NSW 2006, Australia

July 2007
Vol. 84 No. 7
p. 1201

Table of Contents
Supplements in This Issue
Previous Article
Next Article

Full Text (PDF)

Abstract

The correct description and interpretation of covalent bonding require a quantum mechanical approach. Hückel molecular orbital theory, the simplest quantum mechanical model of molecular electronic structure, is (and in an accompanying online article) shown to be a uniquely useful pedagogical path to the understanding and interpretation of the mechanism of covalent bonding. Using the Hückel model it can be demonstrated that the dynamical character of the molecular orbitals is related simultaneously to the covalent bonding mechanism and to the degree of delocalization of the electron dynamics. The resonance stabilization of conjugated molecules thus corresponds to a special case of the fundamental principle of covalent bonding—the relaxation of dynamical constraints by the delocalization of electronic motion. The covalent bonding mechanism can be seen to arise ultimately from a relaxation of nonergodic constraints on the electron dynamics of the separated atoms leading towards free translation of the valence electrons over two or more atomic centers in a molecule.

Supplement

A more comprehensive and detailed presentation is available.


	Download	Contents
	JCE2007p1201W.pdf
	JCE2007p1201W.zip	JCE2007p1201W.doc (Microsoft Word)

More Information

Citation	Nordholm, Sture; Bäck, Andreas; Bacskay, George B. J. Chem. Educ. 2007, 84, 1201.
Keywords	Covalent Bonding; First-Year Undergraduate / General; Graduate Education / Research; Internet / Web-Based Learning; MO Theory; Physical Chemistry; Quantum Chemistry; Second-Year Undergraduate; Theoretical Chemistry; Upper-Division Undergraduate
History	Created: Last Updated:	5/29/2007 6/7/2007

<< Previous Article

Table of Contents

Next Article >>

Home > JCE Print > Journal of Chemical Education > Issues > 2007 > July > Page 1201

Subscriptions

Subscription Info
Order Forms

JCE HS CLIC

Our Secondary School editors work hard to distill all the JCE materials to produce a fraction of particular interest to high school teachers. We call it CLIC.

JCE HS CLIC

Contributions Welcome

JCE welcomes your submission

Contributors' Corner

Advertisers

In recent years we have worked hard to better match our advertisers with our readers. When shopping for chemistry education materials, visit our advertisers' WWW sites first.

Recent Advertisers

Be An Ambassador

Take JCE along on your outreach missions. Copies of the Journal, guest access to JCE Online, our publications catalog, and more are available for your participants.

Outreach with JCE


Comments to jceonline@chem.wisc.edu	Copyright © Division of Chemical Education, Inc., American Chemical Society. All rights reserved.