Laminar N-Doped Carbon Materials from a Biopolymer for Use as a Catalytic Support for Hydrodechlorination Catalysts

Abstract: Nitrogen-doped porous carbons were prepared using a chitosan biopolymer as both a carbon and nitrogen precursor and metallic salts (CaCl2 and ZnCl2-KCl) as a templating agent with the aim of evaluating their performance as catalyst supports. Mixtures of chitosan and templating salts were prepared by simple grinding subjected to pyrolysis and finally washed with water to remove the salts. The resulting materials were characterized, showing that homogeneous nitrogen doping of carbon was achieved (7–9% wt.) thank… Show more

“…Fortunately, it has been reported in recent years that the introduction of inorganic salt templates can effectively tailor the pore structure of biomass carbon. 5 Soluble inorganic salts distribute uniformly in solution and penetrate the raw materials, which stabilizes the surface and provides growth sites for nucleation evenly. 6 Jain et al have shown that the mesopore ratio of biomass carbon could be significantly improved, up to 49.54%, by using ZnCl 2 during hydrothermal pretreatment.…”

Inorganic salt-induced synthesis of lignin derived hierarchical porous carbon with self-embedded quantum dots and ultrahigh mesoporosity for supercapacitors

“…Fortunately, it has been reported in recent years that the introduction of inorganic salt templates can effectively tailor the pore structure of biomass carbon. 5 Soluble inorganic salts distribute uniformly in solution and penetrate the raw materials, which stabilizes the surface and provides growth sites for nucleation evenly. 6 Jain et al have shown that the mesopore ratio of biomass carbon could be significantly improved, up to 49.54%, by using ZnCl 2 during hydrothermal pretreatment.…”

Inorganic salt-induced synthesis of lignin derived hierarchical porous carbon with self-embedded quantum dots and ultrahigh mesoporosity for supercapacitors