H2 -free Plastic Conversion: Converting PET back to BTX by Unlocking Hidden Hydrogen

Abstract

The strong desire for a circular economy makes obtaining fuels and chemicals via plastic degradation an important research topic in the 21st century. Here, the first example of the H₂ -free polyethylene terephthalate (PET) conversion to BTX (benzene, toluene and xylene) was achieved by unlocking hidden hydrogen in the ethylene glycol part over Ru/Nb₂ O₅ catalyst. Among the whole process (hydrolysis, reforming and hydrogenolysis/decarboxylation), the parallel hydrogenolysis and decarboxylation were competing and the rate-determining step. Ru/Nb₂ O₅ exhibited superior hydrogenolysis and poorer decarboxylation performance in direct comparison with Ru/NiAl₂ O₄ , accordingly contributing to the distinct selectivity to alkyl aromatics among BTX. Ru species on Nb₂ O₅ , unlike those on NiAl₂ O₄ , showed more Ru^δ+ species owing to the strong interaction between Ru and Nb₂ O₅ , restricting the undesired decarboxylation. Along with NbO_x species for C-O bond activation, excellent reactivity towards the H₂ -free conversion of PET back to BTX with alkyl aromatics as dominant species was achieved. This H₂ -free system was also capable of converting common real PET plastics back to BTX, adding new options in the circular economy of PET.