2024年
(27) Hardian, R.; Ghaffar, A.; Shi, C. X.; Chen, E. Y. X.; Szekely, G. Chemically recyclable nanofiltration membranes fabricated from two circular polymer classes of the same monomer origin. J. Membr. Sci. Lett. 2024, 4, 1000067. [pdf]
(26) Hu, Z.; Bernsten, S. N.; Shi, C.; Sangroniz, A.; Chen, E. Y.; Miyake, G. M. Terpenoid-Based High-Performance Polyester with Tacticity-Independent Crystallinity and Chemical Circularity. Chem 2024, 10, 3040-3054. [pdf]
(25) Meng, X.-B.; Zhou, T.; Yang, C.; Cheng, X.-Y.; Wu, X.-T.; Shi, C.; Du, F.-S.; Li, Z.-C. Thermally Stable and Chemically Recyclable Poly(ketal-ester)s Regulated by Floor Temperature. J. Am. Chem. Soc. 2024, 146, 15428-15437. [pdf]

(24) Shi, C.; Diment, W. T.; Chen, E. Y. Closed-Loop Recycling of Mixed Plastics of Polyester and CO2-Based Polycarbonate to a Single Monomer. Angew. Chem. Int. Ed. 2024, 63, e202405083. [pdf]

(23) Shi, C.; Quinn, E. C.; Diment, W. T.; Chen, E. Y. X. Recyclable and (Bio)degradable Polyesters in a Circular Plastics Economy. Chem. Rev. 2024, 124, 4393-4478. [pdf]

(22) Shi, C.; Rorrer, N. A.; Shaw, A. L.; Clarke, R. W.; Buss, B. L.; Beckham, G. T.; Broadbelt, L. J.; Chen, E. Y. X. Topology-Accelerated and Selective Cascade Depolymerization of Architecturally Complex Polyesters. J. Am. Chem. Soc. 2024, 146, 9261-9271. [pdf]

(21) Tian, J. J.; Liu, X.; Ye, L.; Zhang, Z.; Quinn, E. C.; Shi, C.; Broadbelt, L. J.; Marks, T. J.; Chen, E. Y. Redesigned Nylon 6 Variants with Enhanced Recyclability, Ductility, and Transparency. Angew. Chem. Int. Ed. 2024, 63, e202320214. [pdf]
(20) Wu, X.-T.; Yang, C.; Xi, J.-S.; Shi, C.; Du, F.-S.; Li, Z.-C. Enabling Closed-Loop Circularity of “Non-Polymerizable” α, β-Conjugated Lactone Towards High-Performance Polyester with the Assistance of Cyclopentadiene. Angew. Chem. Int. Ed. 2024, 63, e202404179. [pdf]

(19) Zhou, L.; Reilly, L. T.; Shi, C.; Quinn, E. C.; Chen, E. Y. X. Proton-triggered topological transformation in superbase-mediated selective polymerization enables access to ultrahigh-molar-mass cyclic polymers. Nat. Chem. 2024, 16, 1357-1365. [pdf]
(18) Zhou, L.; Zhang, Z.; Sangroniz, A.; Shi, C.; Gowda, R. R.; Scoti, M.; Barange, D. K.; Lincoln, C.; Beckham, G. T.; Chen, E. Y. X. Chain-End Controlled Depolymerization Selectivity in α,α-Disubstituted Propionate PHAs with Dual Closed-Loop Recycling and Record-High Melting Temperature. J. Am. Chem. Soc. 2024, 146, 29895-29904. [pdf]
2023年
(17) Caputo, M. R.; Shi, C.; Tang, X.; Sardon, H.; Chen, E. Y. X.; Müller, A. J. Tailoring the Nucleation and Crystallization Rate of Polyhydroxybutyrate by Copolymerization. Biomacromolecules 2023, 24, 5328-5341. [pdf]
(16) Shi, C.; Reilly, L. T.; Chen, E. Y.-X. Hybrid Monomer Design Synergizing Property Trade-offs in Developing Polymers for Circularity and Performance. Angew. Chem. Int. Ed. 2023, 62, e202301850. [pdf]

(15) Shi, C.; Zhang, Z.; Scoti, M.; Yan, X. Y.; Chen, E. Y. Endowing Polythioester Vitrimer with Intrinsic Crystallinity and Chemical Recyclability. ChemSusChem 2023, 16, e202300008. [pdf]

(14) Zhou, L.; Zhang, Z.; Shi, C.; Scoti, M.; Barange, D. K.; Gowda, R. R.; Chen, E. Y.-X. Chemically circular, mechanically tough, and melt-processable polyhydroxyalkanoates. Science 2023, 380, 64-69. [pdf]
2022年
(13) Dastidar, R. G.; Kim, M. S.; Zhou, P.; Luo, Z.; Shi, C.; Barnett, K. J.; McClelland, D. J.; Chen, E. Y. X.; Van Lehn, R. C.; Huber, G. W. Catalytic production of tetrahydropyran (THP): a biomass-derived, economically competitive solvent with demonstrated use in plastic dissolution. Green Chem. 2022, 24, 9101-9113. [pdf]
(12) Guo, Y.-T.; Shi, C.; Du, T.-Y.; Cheng, X.-Y.; Du, F.-S.; Li, Z.-C. Closed-Loop Recyclable Aliphatic Poly(ester-amide)s with Tunable Mechanical Properties. Macromolecules 2022, 55, 4000-4010. [pdf]
(11) Guo, Y.-T.; Xiong, W.; Shi, C.; Du, F.-S.; Li, Z.-C. Facile synthesis of eight-membered cyclic(ester-amide)s and their organocatalytic ring-opening polymerizations. Polym. Chem. 2022, 13, 4490-4501. [pdf]
(10) Shi, C.; Clarke, R. W.; McGraw, M. L.; Chen, E. Y. Closing the "One Monomer-Two Polymers-One Monomer" Loop via Orthogonal (De)polymerization of a Lactone/Olefin Hybrid. J. Am. Chem. Soc. 2022, 144, 2264-2275. [pdf]

(9) Tang, X.; Shi, C.; Zhang, Z.; Chen, E. Y. X. Crystalline aliphatic polyesters from eight‐membered cyclic (di)esters. J. Polym. Sci. 2022, 60, 3478-3488. [pdf]
(8) Yan, B.; Shi, C.; Beckham, G. T.; Chen, E. Y.; Roman-Leshkov, Y. Electrochemical Activation of C-C Bonds through Mediated Hydrogen Atom Transfer Reactions. ChemSusChem 2022, 15, e202102317. [pdf]
(7) Zhang, Z.; Shi, C.; Scoti, M.; Tang, X.; Chen, E. Y. X. Alternating Isotactic Polyhydroxyalkanoates via Site- and Stereoselective Polymerization of Unsymmetrical Diolides. J. Am. Chem. Soc. 2022, 144, 20016-20024. [pdf]
2021年
(6) Shi, C.; Li, Z.-C.; Caporaso, L.; Cavallo, L.; Falivene, L.; Chen, E. Y. X. Hybrid monomer design for unifying conflicting polymerizability, recyclability, and performance properties. Chem 2021, 7, 670-685. [pdf]

(5) Shi, C.; Reilly, L. T.; Phani Kumar, V. S.; Coile, M. W.; Nicholson, S. R.; Broadbelt, L. J.; Beckham, G. T.; Chen, E. Y. X. Design principles for intrinsically circular polymers with tunable properties. Chem 2021, 7, 2896-2912. [pdf]

(4) Tang, X.; Shi, C.; Zhang, Z.; Chen, E. Y. X. Toughening Biodegradable Isotactic Poly(3-hydroxybutyrate) via Stereoselective Copolymerization of a Diolide and Lactones. Macromolecules 2021, 54, 9401-9409. [pdf]
2020年
(3) Shi, C.; McGraw, M. L.; Li, Z. C.; Cavallo, L.; Falivene, L.; Chen, E. Y. High-performance pan-tactic polythioesters with intrinsic crystallinity and chemical recyclability. Sci Adv 2020, 6, eabc0495. [pdf]
(2) Wang, Y.-Z.; Wang, J.-C.; Wu, Y.-H.; Shi, C.-X.; Du, F.-S.; Li, Z.-C. Sequence-defined oligo/poly(ester-amide-ester)s via an orthogonal nucleophilic substitution reaction and a Passerini reaction. Polym. J. 2020, 52, 133-143. [pdf]
2019年
(1) Shi, C.-X.; Guo, Y.-T.; Wu, Y.-H.; Li, Z.-Y.; Wang, Y.-Z.; Du, F.-S.; Li, Z.-C. Synthesis and Controlled Organobase-Catalyzed Ring-Opening Polymerization of Morpholine-2,5-Dione Derivatives and Monomer Recovery by Acid-Catalyzed Degradation of the Polymers. Macromolecules 2019, 52, 4260-4269. [pdf]

