Porous carbon supported Pd catalysts derived from gelatin‐based/chitosan or polyvinyl pyrrolidone/PdCl2 blends

Novel N‐containing porous carbon supported Pd heterogeneous catalysts have been derived by carbonization of gelatin (GEL)/chitosan/PdCl2 (GEL/CS/PdCl2) and GEL/polyvinyl pyrrolidone/PdCl2 (GEL/PVP/PdCl2) blends under N2 atmosphere at 800°C. The microstructure of the resultant N‐containing carbon sup...

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Bibliographic Details
Published in:Journal of applied polymer science 2022-05, Vol.139 (20), p.n/a
Main Authors: Huang, Shuaijian, Yang, Shuai, Chen, Yuli, Yang, Zhen, Deng, Lu, Wu, Yuanyuan, Zhang, Taojun, Feng, Ruokun, Zeng, Minfeng
Format: Article
Language:English
Subjects:
Alkenes
Carbon
Catalysts
Chelation
Chitosan
Gelatin
Halides
Materials science
Mixtures
Nanoparticles
Polymers
porous materials
structure‐property relationships
Surface area
Thermal stability
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Summary:Novel N‐containing porous carbon supported Pd heterogeneous catalysts have been derived by carbonization of gelatin (GEL)/chitosan/PdCl2 (GEL/CS/PdCl2) and GEL/polyvinyl pyrrolidone/PdCl2 (GEL/PVP/PdCl2) blends under N2 atmosphere at 800°C. The microstructure of the resultant N‐containing carbon supported Pd heterogeneous catalysts can be tailored by the nature of the blended polymers. Much larger specific surface area, better dispersion of Pd0/PdO nanoparticles, higher Pd and N contents are found in the case of N‐containing porous carbon supported Pd heterogeneous catalysts derived from GEL/CS/PdCl2 blend system. When the mass ratio of GEL to CS is kept at 1/1, the surface area of 644.8 m2/g, rich porous structure, N % of 7.2%, and Pd0/PdO nanoparticles sized below 3 nm are obtained in the derived Pd@N‐C‐GEL/CS(1/1) catalyst. It shows excellent catalytic efficiency (higher than 90%) in Heck coupling reaction of aromatic halides and alkenes, and high recycling stabilities both in aqueous (9 runs) and organic (15 runs) phase. The high activity and stability of the novel Pd@N‐C‐GEL/CS(1/1) catalyst have been attributed to a combination of high porous structure, strong chelation of Pd species, high thermal stability, and good solvent‐resistant performances.
ISSN:0021-8995
1097-4628
DOI:10.1002/app.52163