Reactions of Oriented Molecules

Reactions of Oriented Molecules

Beams of oriented molecules have been used to directly study geometrical requirements in chemical reactions. These studies have shown that reactivity is much greater in some orientations than others and demonstrated the existence of steric effects. For some reactions portions of the orientation resu...

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Bibliographic Details
Published in:Science (American Association for the Advancement of Science) Vol. 193; no. 4247; pp. 11 - 16
Main Author: Brooks, Philip R.
Format: Journal Article
Language:English
Published: United States American Association for the Advancement of Science 02-07-1976
Subjects:
Atoms
Electric fields
Energy
Iodides
Lead
Molecular beams
Molecular rotation
Molecules
Reactivity
Rotation
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Summary:Beams of oriented molecules have been used to directly study geometrical requirements in chemical reactions. These studies have shown that reactivity is much greater in some orientations than others and demonstrated the existence of steric effects. For some reactions portions of the orientation results are in good accord with traditional views of steric hindrance, but for others it is clear that our chemical intuition needs recalibrating. Indeed, the information gained from simultaneously orienting the reactants and observing the scattering angle of the products may lead to new insights about the detailed mechanism of certain reactions. Further work must be done to extend the scope and detail of the studies described here. More detailed information is needed on the CH(3)I reaction and the CF(3)I reaction. The effects of alkyl groups of various sizes and alkali metals of various sizes are of interest. In addition, reactions where a long-lived complex is formed should be studied to see if orientation is important. Finally, it would be of interest to apply the technique to the sort of reactions that led to our interest in the first place: the S(N)2 displacements in alkyl halides where the fascinating Walden inversion occurs.
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ISSN:0036-8075
1095-9203
DOI:10.1126/science.193.4247.11