The active intermediate responsible for pyridine (Py)-catalyzed reduction of CO on a p-GaP photoelectrode is currently under debate. Exploration of the proposed intermediates' available pathways for further reaction may yield a deeper understanding of the CO reduction mechanism that will be essential to designing better cocatalysts in such photoelectrochemical systems. Adsorbed 2-pyridinide (2-PyH*) was recently proposed by Carter and co-workers to be an intermediate that facilitates hydride transfer (HT) to CO to produce formate. However, the lifetime of 2-PyH*, most likely controlled by the rate of 2-PyH* protonation to form adsorbed dihydropyridine (DHP*), is still in question. In this work, we provide evidence for the transient existence of 2-PyH* on a p-GaP surface by comparing the activation energy for HT to CO to those predicted for 2-PyH* being protonated to form either DHP* or Py* + H via a hydrogen evolution reaction (HER). We predict that 2-PyH* situated next to an adjacent surface hydroxide (OH*) will be the most effective intermediate leading to CO reduction on p-GaP. Predicted high barriers of HER (via either 2-PyH* or H*) also explain the high selectivity toward CO reduction observed in experiments.
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