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Contribution to Book
Nonbonded Interactions
Computational Medicinal Chemistry and Drug Discovery
  • Steve Scheiner, Utah State University
Document Type
Book Chapter
Publication Date
1-1-2004
Publisher
Marcel Dekker (now Taylor & Francis)
Editor
Patrick Bultinck, Hans De Winter, Wilfried Langenaeker & Jan P. Tollenaere
Disciplines
Abstract
Anyone who has taken a general chemistry class has some sense of what is meant by a bonding interaction. When one draws the structure of a molecule, whether in two dimensions, as in a simple Lewis dot structure, or three dimensions using VSEPR or some other representation, the lines that are drawn between the various atomic nuclei represent covalent bonds or "bonding interactions." This bond might be a single bond, as the O-H bonds in water, a double bond as in ethylene, or a triple bond for which acetylene serves as the most common example. In most cases, this covalent bond represents a shared pair of electrons and represents a good deal of binding energy holding the two atoms together, typically on the order of 50-100 kcal/mol.
Comments

Originally published by Taylor Francis (formerly Marcel Dekker). Limited preview of book chapter available through remote link.
This book can be purchased through the publisher.

Citation Information
S. Scheiner "Nonbonded Interactions" in Computational Medicinal Chemistry and Drug Discovery, Eds. P. Bultinck, H. De Winter, W. Langenaeker, J. P. Tollenaere, Marcel Dekker, (2004) pp. 235-257