Role of ferrocene-derived iron species in the catalytic graphitization of novolak resins

“…The presence of ferrocene (a catalyst and carbon source) and the reducing environment are both responsible for the induction of phenolic resin graphitization in onion-like hollow carbon. The hollow onion-shaped material facilitated 96% elimination in 5 min in the photocatalytic research of the pesticide atrazine (ATZ) in an aqueous medium and affected the mechanism of ATZ degradation and the synthesis of atrazine-2-hydroxy (HAT) in various reactors (Figure 22) [92].…”

“…A recent study described the morphological and structural differences in the intermediate carbon structures containing iron throughout the graphitization process, obtained after several steps of heat treatment from 200 to 1000 • C. The presence of ferrocene (a catalyst and carbon source) and the reducing environment are both responsible for the induction of phenolic resin graphitization in onion-like hollow carbon. The hollow onion-shaped material facilitated 96% elimination in 5 min in the photocatalytic research of the pesticide atrazine (ATZ) in an aqueous medium and affected the mechanism of ATZ degradation and the synthesis of atrazine-2-hydroxy (HAT) in various reactors (Figure 22) [92]. By using the Schiff base reaction, the porous ferrocene-linked organic polymer (FcTz-POP) was synthesized and exhibited a high iodine vapor capacity, 1.8 times that of a reference material without ferrocene (BpTz-POP).…”

Contemporary Developments in Ferrocene Chemistry: Physical, Chemical, Biological and Industrial Aspects

“…The presence of ferrocene (a catalyst and carbon source) and the reducing environment are both responsible for the induction of phenolic resin graphitization in onion-like hollow carbon. The hollow onion-shaped material facilitated 96% elimination in 5 min in the photocatalytic research of the pesticide atrazine (ATZ) in an aqueous medium and affected the mechanism of ATZ degradation and the synthesis of atrazine-2-hydroxy (HAT) in various reactors (Figure 22) [92].…”

“…A recent study described the morphological and structural differences in the intermediate carbon structures containing iron throughout the graphitization process, obtained after several steps of heat treatment from 200 to 1000 • C. The presence of ferrocene (a catalyst and carbon source) and the reducing environment are both responsible for the induction of phenolic resin graphitization in onion-like hollow carbon. The hollow onion-shaped material facilitated 96% elimination in 5 min in the photocatalytic research of the pesticide atrazine (ATZ) in an aqueous medium and affected the mechanism of ATZ degradation and the synthesis of atrazine-2-hydroxy (HAT) in various reactors (Figure 22) [92]. By using the Schiff base reaction, the porous ferrocene-linked organic polymer (FcTz-POP) was synthesized and exhibited a high iodine vapor capacity, 1.8 times that of a reference material without ferrocene (BpTz-POP).…”

Contemporary Developments in Ferrocene Chemistry: Physical, Chemical, Biological and Industrial Aspects

Elucidation of the atrazine degradation intermediates and dependence on the physicochemical properties of the niobium pentoxide nanostructures

Catalytic graphitization in anthracite by reduced iron particles and investigating the mechanism of catalytic transformation via molecular dynamics