Specific Chemical Reactivities of Spatially Separated 3-Aminophenol Conformera with Cold Ca⁺ Ions

Specific Chemical Reactivities of Spatially Separated 3-Aminophenol Conformera with Cold Ca⁺ Ions

Many molecules exhibit multiple rotational isomers (conformers) that interconvert thermally and are difficult to isolate. Consequently, a precise characterization of their role in chemical reactions has proven challenging. We have probed the reactivity of specific conformers by using an experimental...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2013-10, Vol.342 (6154), p.98-101
Hauptverfasser: Chang, Yuan-Pin, Długołęcki, Karol, Küpper, Jochen, Rösch, Daniel, Wild, Dieter, Willitsch, Stefan
Format: Artikel
Sprache:eng
Schlagworte:
Coordinate systems
Crystals
Electrostatics
Ions
Laser beams
Molecular beams
Molecular rotation
Molecules
Reactivity
Structural deflection
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Zusammenfassung:Many molecules exhibit multiple rotational isomers (conformers) that interconvert thermally and are difficult to isolate. Consequently, a precise characterization of their role in chemical reactions has proven challenging. We have probed the reactivity of specific conformers by using an experimental technique based on their spatial separation in a molecular beam by electrostatic deflection. The separated conformers react with a target of Coulomb-crystallized ions in a trap. In the reaction of Ca⁺ with 3-aminophenol, we find a twofold larger rate constant for the eis compared with the trans conformer (differentiated by the O-H bond orientation). This result is explained by conformer-specific differences in the long-range ion-molecule interaction potentials. Our approach demonstrates the possibility of controlling reactivity through selection of conformational states.
ISSN:0036-8075
1095-9203