Porous Carbon–Carbon Composite Materials Obtained by Alkaline Dehydrochlorination of Polyvinyl Chloride

Abstract: Porous carbon–carbon composite materials (PCCCM) were synthesized by the alkaline dehydrochlorination of polyvinyl chloride solutions in dimethyl sulfoxide containing the modifying additives of a nanostructured component (NC): graphite oxide (GO), reduced graphite oxide (RGO) or nanoglobular carbon (NGC), with subsequent two-step thermal treatment of the obtained polyvinylene–NC composites (carbonization at 400 °C and carbon dioxide activation at 900 °C). The focus of the study was on the analysis and digital … Show more

“…The transformation of PVC waste into nanostructured catalyst supports presents a promising solution for both addressing the environmental concerns associated with PVC waste and advancing catalyst development (see Figure 13). 191,[223][224][225][226][227] By utilizing PVC waste as a precursor, innovative conversion processes can be employed to create nanostructured materials with increased surface area and improved catalytic properties. [228][229][230] These catalyst supports can serve as platforms for active metals or metal oxide catalysts, enabling efficient chemical reactions in various applications.…”

Recent advances in polyvinyl chloride (PVC) recycling

“…The transformation of PVC waste into nanostructured catalyst supports presents a promising solution for both addressing the environmental concerns associated with PVC waste and advancing catalyst development (see Figure 13). 191,[223][224][225][226][227] By utilizing PVC waste as a precursor, innovative conversion processes can be employed to create nanostructured materials with increased surface area and improved catalytic properties. [228][229][230] These catalyst supports can serve as platforms for active metals or metal oxide catalysts, enabling efficient chemical reactions in various applications.…”

Recent advances in polyvinyl chloride (PVC) recycling

Upcycling chlorinated waste plastics