JCE 2001 (78) 387 [Mar] Electronegativity and Bond Type: Predicting Bond Type


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Home > JCE Print > Journal of Chemical Education > Issues > 2001 > March >

Research: Science and Education

Electronegativity and Bond Type: Predicting Bond Type

Gordon Sproul
Department of Chemistry, University of South Carolina at Beaufort, Beaufort, SC 29902

March 2001
Vol. 78 No. 3
p. 387

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Abstract

While most general chemistry textbooks recognize that differences in electronegativity between bonded atoms provide only an indication of bond type, the difference function of electronegativity itself is both inadequate and improper for determining bond type. An alternative algorithm based on the unfunctionalized values of electronegativity for the two bonded atoms in binary compounds of representative elements provides much better discrimination between ionic and covalent bonding. This algorithm not only removes the ambiguity introduced by the difference function, but at the same time provides for the natural inclusion of the third type of interatomic bond--metal-metal bonding. Textbook authors should indicate that the absolute values of electronegativity, not their differences, are most useful for predicting bond type. Also, the value of electronegativity of the element of higher electronegativity in binary compounds determines whether the compound will be metallic. If a compound is not metallic, the electronegativity of the element of lower electronegativity determines whether the compound will exhibit primarily ionic or covalent character if that element is representative. If the element of lower electronegativity is a transition metal, the bond character is not predictable using electronegativities alone.

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Citation	Sproul, Gordon. J. Chem. Educ. 2001 78 387.
Keywords	Bonding Theory; General Chemistry; Inorganic Chemistry; Materials Science; Periodicity / Periodic Table; Teaching / Learning Aids
History	Created: Last Updated:	February 6, 2001 April 14, 2005


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