4.8 Article

Photochemistry of pyruvic acid is governed by photo-induced intermolecular electron transfer through hydrogen bonds

Journal

CHEMICAL SCIENCE
Volume 13, Issue 40, Pages 11849-11855

Publisher

ROYAL SOC CHEMISTRY
DOI: 10.1039/d2sc03038a

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Funding

  1. European Union [682574]
  2. European Research Council (ERC) [682574] Funding Source: European Research Council (ERC)

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Despite more than 85 years of research, the mechanism behind the photodecarboxylation of pyruvic acid remains elusive. This study reveals that instead of decarboxylation, pyruvic acid acts as an electron donor and transfers an electron to an acceptor molecule, leading to degradation and the formation of CO2. The electron transfer occurs via hydrogen bonding, with the hydrated form of pyruvic acid acting as the electron acceptor.
Despite more than 85 years of research, the mechanism behind the photodecarboxylation of pyruvic acid remains elusive. Most studies focused on the gas and liquid phase of diluted solutions of pyruvic acid to understand the impact of sun light on the degradation of this molecule in the atmosphere. By analyzing concentrated supercooled solutions at 77 K, we demonstrate that instead of decarboxylating, the pyruvic acid molecule plays the role of electron donor and transfers an electron to an acceptor molecule that subsequently degrades to form CO2. We show that this electron transfer occurs via hydrogen bonding and that in aqueous solutions of pyruvic acid, the hydrated form is the electron acceptor. These findings demonstrate that photo-induced electron transfer via hydrogen bonding can occur between two simple carboxylic acids and that this mechanism governs the photochemistry of pyruvic acid, providing unexplored alternative pathways for the decarboxylation of photo-inactive molecules.

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