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Literature DB >> 22641727

Proton mobility in water clusters.

Mauritz Johan Ryding¹, Patrik Urban Andersson, Alexey S Zatula, Einar Uggerud.

Abstract

Proton mobility in water occurs quickly according to the so-called Grotthuss mechanism. This process and its elementary reaction steps can be studied in great detail by applying suitable mass spectrometric methods to ionic water clusters. Careful choice of suitable core ions in combination with analysis of cluster size trends in hydrogen/deuterium isotope exchange rates allows for detailed insights into fascinating dynamical systems. Analysis of the experiments has been promoted by extensive and systematic quantum chemical model calculations. Detailed low-energy mechanistic pathways for efficient water rearrangement and proton transfer steps, in particular cases along short preformed "wires" of hydrogen bonds, have been identified in consistency with experimental findings.

Entities: Chemical

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Year: 2012 PMID： 22641727 DOI： 10.1255/ejms.1172

Source DB: PubMed Journal: Eur J Mass Spectrom (Chichester) ISSN： 1469-0667 Impact factor: 1.067

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Cited

3 in total

1. Submillisecond mixing in a continuous-flow, microfluidic mixer utilizing mid-infrared hyperspectral imaging detection.

Authors: Drew P Kise; Donny Magana; Michael J Reddish; R Brian Dyer
Journal: Lab Chip Date: 2014-02-07 Impact factor: 6.799

2. Infrared Multiple Photon Dissociation Spectroscopy Confirms Reversible Water Activation in Mn⁺(H₂O)_n, n ≤ 8.

Authors: Jakob Heller; Ethan M Cunningham; Christian van der Linde; Milan Ončák; Martin K Beyer
Journal: J Phys Chem Lett Date: 2022-04-07 Impact factor: 6.888

3. Getting Ready for the Hydrogen Evolution Reaction: The Infrared Spectrum of Hydrated Aluminum Hydride-Hydroxide HAlOH⁺ (H₂ O)_n-1 , n=9-14.

Authors: Jakob Heller; Wai Kit Tang; Ethan M Cunningham; Ephrem G Demissie; Christian van der Linde; Wing Ka Lam; Milan Ončák; Chi-Kit Siu; Martin K Beyer
Journal: Angew Chem Int Ed Engl Date: 2021-06-04 Impact factor: 15.336

3 in total

Proton mobility in water clusters.

1. Submillisecond mixing in a continuous-flow, microfluidic mixer utilizing mid-infrared hyperspectral imaging detection.

2. Infrared Multiple Photon Dissociation Spectroscopy Confirms Reversible Water Activation in Mn+(H2O)n, n ≤ 8.

3. Getting Ready for the Hydrogen Evolution Reaction: The Infrared Spectrum of Hydrated Aluminum Hydride-Hydroxide HAlOH+ (H2 O)n-1 , n=9-14.

2. Infrared Multiple Photon Dissociation Spectroscopy Confirms Reversible Water Activation in Mn⁺(H₂O)_n, n ≤ 8.

3. Getting Ready for the Hydrogen Evolution Reaction: The Infrared Spectrum of Hydrated Aluminum Hydride-Hydroxide HAlOH⁺ (H₂ O)_n-1 , n=9-14.