Valorization of Sugarcane Bagasse to Sulfur Containing Graphene: Chemistry and Mechanism.

Keywords: Sugarcane bagasse fibers; NaHSO3; pyrolysis; S-graphene; mechanism; chemistry; ; ; S- ; ; EN Sugarcane bagasse fibers NaHSO3 pyrolysis S-graphene mechanism chemistry ZH S- 9776 9781 6 11/21/22 20221220 NES 221220 Graphical abstract Graph Introduction Nowadays, natural occurring carbonaceous materials are considered as the alternative sources for the production of graphene derivatives (Chen et al. [1]; Goswami et al. [8]; Purkait et al. [13]; Shams et al. [14]; Singh, Bahadur, and Pal [16]; Somanathan et al. [17]). (a, b) TEM images of S-graphene at 350°C for 2 h The chemistry and mechanism behind the development of S-graphene from sugarcane bagasse fibers is demonstrated in Figure 5. XRD proved to be an important parameter to check the crystallinity of S-graphene as well as to differentiate the S-GO and S-graphene, produced during pyrolysis. Pyrolysis, mechanism, Sugarcane bagasse fibers, NaHSO3, S-graphene, chemistry. [Extracted from the article]