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Tunnelling measured in a very slow ion–molecule reaction

Robert Wild, Markus Nötzold, Malcolm Simpson, Thuy Dung Tran and Roland Wester ()
Additional contact information
Robert Wild: Universität Innsbruck
Markus Nötzold: Universität Innsbruck
Malcolm Simpson: Universität Innsbruck
Thuy Dung Tran: Universität Innsbruck
Roland Wester: Universität Innsbruck

Nature, 2023, vol. 615, issue 7952, 425-429

Abstract: Abstract Quantum tunnelling reactions play an important role in chemistry when classical pathways are energetically forbidden1, be it in gas-phase reactions, surface diffusion or liquid-phase chemistry. In general, such tunnelling reactions are challenging to calculate theoretically, given the high dimensionality of the quantum dynamics, and also very difficult to identify experimentally2–4. Hydrogenic systems, however, allow for accurate first-principles calculations. In this way the rate of the gas-phase proton-transfer tunnelling reaction of hydrogen molecules with deuterium anions, H2 + D− → H− + HD, has been calculated5, but has so far lacked experimental verification. Here we present high-sensitivity measurements of the reaction rate carried out in a cryogenic 22-pole ion trap. We observe an extremely low rate constant of (5.2 ± 1.6) × 10−20 cm3 s−1. This measured value agrees with quantum tunnelling calculations, serving as a benchmark for molecular theory and advancing the understanding of fundamental collision processes. A deviation of the reaction rate from linear scaling, which is observed at high H2 densities, can be traced back to previously unobserved heating dynamics in radiofrequency ion traps.

Date: 2023
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DOI: 10.1038/s41586-023-05727-z

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