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Water activation and splitting by single anionic iridium atoms.

Zhaoguo ZhuGaoxiang LiuSandra M CiborowskiYulu CaoRachel M HarrisKit H Bowen
Published in: The Journal of chemical physics (2022)
Mass spectrometric analysis of anionic products that result from interacting Ir - with H 2 O shows the efficient generation of [Ir(H 2 O)] - complexes and IrO - molecular anions. Anion photoelectron spectra of [Ir(H 2 O)] - , formed under various source conditions, exhibit spectral features that are due to three different forms of the complex: the solvated anion-molecule complex, Ir - (H 2 O), as well as the intermediates, [H-Ir-OH] - and [H 2 -Ir-O] - , where one and two O-H bonds have been broken, respectively. The measured and calculated vertical detachment energy values are in good agreement and, thus, support identification of all three types of isomers. The calculated reaction pathway shows that the overall reaction Ir - + H 2 O → IrO - + H 2 is exothermic. Two minimum energy crossing points were found, which shuttle intermediates and products between singlet and triplet potential surfaces. This study presents the first example of water activation and splitting by single Ir - anions.
Keyphrases
  • ionic liquid
  • computed tomography
  • optical coherence tomography
  • escherichia coli
  • climate change