Title : Mechanoenzymatic reactions for the hydrolysis of PET - Ambrose-Dempster_2023_RSC.Adv_13_9954 |
Author(s) : Ambrose-Dempster E , Leipold L , Dobrijevic D , Bawn M , Carter EM , Stojanovski G , Sheppard TD , Jeffries JWE , Ward JM , Hailes HC |
Ref : RSC Adv , 13 :9954 , 2023 |
Abstract :
Recent advances in the enzymatic degradation of poly(ethylene terphthalate) (PET) have led to a number of PET hydrolytic enzymes and mutants being developed. With the amount of PET building up in the natural world, there is a pressing need to develop scalable methods of breaking down the polymer into its monomers for recycling or other uses. Mechanoenzymatic reactions have gained traction recently as a green and efficient alternative to traditional biocatalytic reactions. For the first time we report increased yields of PET degradation by whole cell PETase enzymes by up to 27-fold by utilising ball milling cycles of reactive aging, when compared with typical solution-based reactions. This methodology leads to up to a 2600-fold decrease in the solvent required when compared with other leading degradation reactions in the field and a 30-fold decrease in comparison to reported industrial scale PET hydrolysis reactions. |
PubMedSearch : Ambrose-Dempster_2023_RSC.Adv_13_9954 |
PubMedID: 37006375 |
Ambrose-Dempster E, Leipold L, Dobrijevic D, Bawn M, Carter EM, Stojanovski G, Sheppard TD, Jeffries JWE, Ward JM, Hailes HC (2023)
Mechanoenzymatic reactions for the hydrolysis of PET
RSC Adv
13 :9954
Ambrose-Dempster E, Leipold L, Dobrijevic D, Bawn M, Carter EM, Stojanovski G, Sheppard TD, Jeffries JWE, Ward JM, Hailes HC (2023)
RSC Adv
13 :9954