Preparation and characterization of N-doped porous carbon derived from chlorinated polypropylene with controllable nitrogen content and specific surface area

Nitrogen-doped porous carbon with controllable specific surface area or nitrogen content was prepared from chlorinated polypropylene and nitrogen-containing compounds. The product shows high porosity and regular pore structure. [Display omitted] Here we report a facile method to prepare nitrogen-dop...

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Bibliographic Details
Published in:Colloids and surfaces. A, Physicochemical and engineering aspects Physicochemical and engineering aspects, 2021-05, Vol.616, p.126332, Article 126332
Main Authors: Zhang, Yisheng, Li, Qian, Li, Huayi, Wang, Li, Hu, Youliang
Format: Article
Language:English
Subjects:
Chlorinated polypropylene
Nitrogen doping
Porous carbon
Specific surface area
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Summary:Nitrogen-doped porous carbon with controllable specific surface area or nitrogen content was prepared from chlorinated polypropylene and nitrogen-containing compounds. The product shows high porosity and regular pore structure. [Display omitted] Here we report a facile method to prepare nitrogen-doped porous carbon with controllable specific surface area and nitrogen content through pretreated chlorinated polypropylene with nitrogen-containing compounds(NCCs). The microstructure and porous textures of the obtained carbons are characterized by BET, SEM, TEM, XRD and Raman, respectively. SEM shows that pore structure can be found in carbon matrix. And with the increase of nitrogen content, more amorphous carbon are observed in Raman spectral. The results show that the specific surface areas are effectively increased from 1000 m2/g to 3269 m2/g when the structure of NCCs have a nitrogen-contained hexatomic ring, and nitrogen content are apparently raised from 1.3 at% to 27.73 at% when the NCCs contain guanidyl structure. Besides, XPS shows that when the nitrogen content is relatively low, nitrogen emerge at carbon matrix mainly in form of pyrrolic-N, and with the increase of nitrogen content, the pyridinic-N become the main structure of nitrogen in carbon.
ISSN:0927-7757
1873-4359
DOI:10.1016/j.colsurfa.2021.126332