Carbon Composites—Graphene-Oxide-Catalyzed Sugar Graphitization
Abstract
Utilization of biopolymers to form graphitic carbons is challenged by their high oxygen content and resulting curved and defective carbon lamellae upon high-temperature heat-treatment. Two composites, one with graphene-oxide (GO) and the other with reduced graphene-oxide (rGO) as fillers, respectively, in a matrix of sugar, each for the same added 2.5 wt.%, exhibited different degrees of graphitization compared to pure sugar on its own. Reactive oxygen groups on GO contribute to reactive templating and crystallite formation. Under high-temperature heat-treatment, sugar, a well-known non-graphitizing precursor, is converted to graphitic carbon in the presence of GO. Possessing fewer oxygen groups, rGO forms two phases in the sugar matrix—a non-graphitic phase and a graphitic phase. The latter is attributed to the remaining oxygen on the rGO.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- Feb 14, 2022
- Source ID
- 10.3390/c8010015
Entities
People
- Madhu Singh
- Randy L. Vander Wal
Organizations
- Army Research Office