[ 1 ] Peeken I, Primpke S, Beyer B, Gütermann J, Katlein C, Krumpen T, et al. Arctic sea ice is an important temporal sink and means of transport for microplastic. Nat Commun 2018;9(1):1505. 链接1

[ 2 ] Watt E, Picard M, Maldonado B, Abdelwahab MA, Mielewski DF, Drzal LT, et al. Ocean plastics: environmental implications and potential routes for mitigation—a perspective. RSC Adv 2021;11:21447‒62. 链接1

[ 3 ] Beaumont NJ, Aanesen M, Austen MC, Börger T, Clark JR, Cole M, et al. Global ecological, social and economic impacts of marine plastic. Mar Pollut Bull 2019;142:189‒95. 链接1

[ 4 ] Raquez JM, Narayan R, Dubois P. Recent advances in reactive extrusion processing of biodegradable polymer-based compositions. Macromol Mater Eng 2008;293(6):447‒70. 链接1

[ 5 ] Li TT, Feng LF, Gu XP, Zhang CL, Wang P, Hu GH. Intensification of polymerization processes by reactive extrusion. Ind Eng Chem Res 2021;60(7):2791‒806. 链接1

[ 6 ] Mincheva R, Guemiza H, Hidan C, Moins S, Coulembier O, Dubois P, et al. Development of inherently flame—retardant phosphorylated PLA by combination of ring-opening polymerization and reactive extrusion. Materials 2020;13(1):13. 链接1

[ 7 ] Pilate F, Mincheva R, De Winter J, Gerbaux P, Wu L, Todd R, et al. Design of multistimuli-responsive shape-memory polymer materials by reactive extrusion. Chem Mater 2014;26(20):5860‒7. 链接1

[ 8 ] Mihai I, Hassouna F, Fouquet T, Laachachi A, Raquez JM, Ibn El Ahrach H, et al. Reactive plasticization of poly(lactide) with epoxy functionalized cardanol. Polym Eng Sci 2018;58(S1):E64‒72. 链接1

[ 9 ] Rigoussen A, Verge P, Raquez JM, Habibi Y, Dubois P. In-depth investigation on the effect and role of cardanol in the compatibilization of PLA/ABS immiscible blends by reactive extrusion. Eur Polym J 2017;93:272‒83. 链接1

[10] Quintana R, Persenaire O, Lemmouchi Y, Bonnaud L, Dubois P. Compatibilization of co-plasticized cellulose acetate/water soluble polymers blends by reactive extrusion. Polym Degrad Stabil 2016;126:31‒8. 链接1

[11] Raquez JM, Ramy-Ratiarison R, Murariu M, Dubois P. Reactive extrusion of PLA-based materials: from the synthesis to reactive melt-blending. In: Jiménez A, Peltzer MA, Ruseckaite RA, editors. Poly(lactic acid) science and technology: processing, properties, additives and applications. London: Royal Society of Chemistry; 2014. p. 101‒23. 链接1

[12] Ramy-Ratiarison R, Lison V, Raquez JM, Duquesne E, Dubois P. Synthesis of melt-processable PLA-based stereocomplexes through a sustainable meltapproach. Green Chem 2014;16(4):1759‒63. 链接1

[13] Spinella S, Ganesh M, Lo Re G, Zhang S, Raquez JM, Dubois P, et al. Enzymatic reactive extrusion: moving towards continuous enzyme-catalysed polyester polymerisation and processing. Green Chem 2015;17(8):4146‒50. 链接1

[14] Enzymatic recycling: removing the constraints of current processes [Internet]. Saint-Beauzire: Carbios; [cited 2021 Jul 26]. Available from: https://www.carbios.com/en/enzymatic-recycling/. 链接1

[15] Tournier V, Topham CM, Gilles A, David B, Folgoas C, Moya-Leclair E, et al. An engineered PET depolymerase to break down and recycle plastic bottles. Nature 2020;580(7802):216‒9. 链接1

[16] Odent J, Toncheva A, Dubois P, Raquez JM. From 3D to 4D-printing: on the road to smart 3D-printed polymer devices. In: Peponi L, Raquez JM, editors. How smart are the polymers? Hauppauge: Nova Science Publishers; 2018. p. 391‒422. 链接1

[17] Khelifa F, Ershov S, Habibi Y, Snyders R, Dubois P. Free-radical-induced grafting from plasma polymer surfaces. Chem Rev 2016;116(6):3975‒4005. 链接1