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【2022-01】组内论文在Macromolecular Rapid Communications发表,Congratulations 贾曼曼和唐涛老师

Manman Jia, Huiying Bai, Ning Liu, Liang Hao, Panpan He, Zifen Fan, Jie Liu, Ran Niu, Jiang Gong*, Tao Tang*

Upcycling waste polyethylene into carbon nanomaterial via a carbon-grown-on-carbon strategy

Macromolecular Rapid Communications 815 (2022) 152900. (IF2021 = 5.734)

Upcycling waste plastics (e.g., polyethylene (PE)) into value-added carbon products is regarded as a promising approach to address the increasingly serious waste plastic pollution and simultaneously achieve carbon neutrality. However, developing new carbonization technology routes to promote the oxidation of PE at low temperature and construct the stable crosslinking network remains challenging. Here, we propose a facile carbon-grown-on-carbon strategy using carbon black (CB) to convert waste PE into core/shell carbon nanoparticles (CN) in high yields at low temperature. The yield of CN remarkably rises when the heating temperature decreases or the dosage of CB grows. The obtained CN displays turbostratic structure and closely aggregated granular morphology with a size of ca. 80 nm. It is found, prior to the oxidation and carbonization of PE, CB forms a 3D network architecture in the PE matrix. More importantly, CB not only catalyzes the partial oxidation of PE to form PE macromolecular radicals and introduce oxygen-containing groups at low temperature in the early stage, but also favors for the construction of a stable crosslinking network in the latter stage. This work offers a facile sustainable strategy for chemical upcycling of PE into value-added carbon products without post-treatments or usage of metallic catalysts.