Ayafor_2024_ChemSusChem__e202400698

Reference

Title : In-Situ Product Removal for the Enzymatic Depolymerization of Poly(ethylene terephthalate) via a Membrane Reactor - Ayafor_2024_ChemSusChem__e202400698
Author(s) : Ayafor C , Chang AC , Patel A , Abid U , Xie D , Sobkowicz MJ , Wong HW
Ref : ChemSusChem , :e202400698 , 2024
Abstract :

Poly(ethylene terephthalate) (PET) is a common single-use plastic and a major contributor to plastic waste. PET upcycling through enzymatic depolymerization has drawn significant interests, but lack of robust enzymes in acidic environments remains a challenge. This study investigates in-situ product removal (ISPR) of protons from enzymatic PET depolymerization via a membrane reactor, focusing on the ICCG variant of leaf branch compost cutinase. More than two-fold improvements in overall PET depolymerization and terephthalic acid yields were achieved employing ISPR for an initial PET loading of 10 mgPET mlbuffer-1. The benefit of ISPR was reduced for a lower initial loading of 1 mgPET mlbuffer-1 due to decreased need for pH stabilization of the enzyme-containing solutions. A back-of-envelop analysis suggests that at a modest dilution ratio, ISPR could help achieve savings on caustic base solutions used for pH control in a bioreactor. Our study provides valuable insights for future ISPR developments for enzymatic PET depolymerization, addressing the pressing need for more sustainable solutions towards plastic recycling and environmental conservation.

PubMedSearch : Ayafor_2024_ChemSusChem__e202400698
PubMedID: 39227316

Related information

Citations formats

Ayafor C, Chang AC, Patel A, Abid U, Xie D, Sobkowicz MJ, Wong HW (2024)
In-Situ Product Removal for the Enzymatic Depolymerization of Poly(ethylene terephthalate) via a Membrane Reactor
ChemSusChem :e202400698

Ayafor C, Chang AC, Patel A, Abid U, Xie D, Sobkowicz MJ, Wong HW (2024)
ChemSusChem :e202400698