Litcius/Paper detail

Electrooxidation of Ethylene Glycol to Glycolic Acid in a Neutral Electrolyte via Enhanced *OH Generation and Directional Spillover

Rui Shi, Yuxiang Wang, Jiu Chen, Fulai Liu, Tong Sun, Edmund C M Tse, Yong Chen

2026Journal of the American Chemical Society6 citationsDOI

Abstract

Electrochemical upcycling of polyethylene terephthalate (PET)-derived ethylene glycol (EG) into glycolic acid (GA) presents a sustainable route toward circular plastic economy. While recent advances have improved EG oxidation reaction (EGOR) performance in alkaline media, the downstream separation of GA remains cumbersome and inevitably coproduces waste salts. Neutral media offer a promising alternative but are constrained by the difficulty in generating and utilizing *OH, a pivotal EGOR intermediate. Although Ir has been reported to promote H 2 O dissociation into active *OH species, a major challenge lies in ensuring that the generated *OH effectively participates in EGOR, rather than undergoing self-dehydrogenation (*OH → *O). To address this, we designed an atomically isolated Ir decorated Pd alloy with high-density Ir–Pd interfaces, which establishes an *OH transfer network that promotes *OH-mediated EGOR while suppressing *OH self-dehydrogenation. In situ spectroscopic characterizations reveal that Ir 1 Pd-SAA facilitates the efficient dissociation of H 2 O into *OH at Ir single-atom sites, followed by *OH spillover to adjacent Pd sites within an atomic scale, thus triggering EGOR. Ir 1 Pd-SAA delivers a peak current of 56.2 mA cm –2 at 0.89 V vs RHE, outperforming pure Pd (10.7 mA cm –2 at 0.95 V vs RHE) and Ir NP Pd (7.3 mA cm –2 0.92 V vs RHE), along with high GA selectivity (80.1%), FE (76.3%), and stability over 330 h. Theoretical calculations confirm the Ir–Pd synergistic effect, where Ir promotes *OH generation and optimizes the electronic structure of Pd to initiate EGOR. This work provides fundamental insights for rational catalyst design for alcohol-to-organic acid conversion in neutral media.

Topics & Concepts

ChemistryGlycolic acidEthylene glycolElectrolyteDissociation (chemistry)CatalysisSelectivityElectrochemistryPolyethylene glycolChemical engineeringCombinatorial chemistryEthyleneCarboxylateTernary operationAlloyBrønsted–Lowry acid–base theoryPEG ratioElectrodeIridiumReversible reactionInorganic chemistryPhosphopeptideImpurityPolyethylene terephthalateSpillover effectActivator (genetics)NanotechnologyReaction intermediateMesoporous silicaPhotochemistryElectrocatalystCatalysis for Biomass ConversionElectrocatalysts for Energy ConversionCO2 Reduction Techniques and Catalysts