Abstract
Biomass is becoming particularly important as a starting material for advanced carbon structures. In this study, we found interesting nanostructures on the surface of burnt spaghetti using scanning electron microscopy, transmission electron microscopy (TEM), and energy dispersive X-ray spectroscopy (EDX) for analysis. The structures were elongated and finger-like, with evidence that the tubes have shell and core components. The shell was carbon that included amorphous and layered graphene structures. EDX showed enriched potassium and phosphorous in the core and at the tip of the tubes. The results indicate that tube formation depends on phase separation of polar/ionic and nonpolar moieties when water is produced in the biomass from the pyrolysis/combustion. The tube growth is most probably due to the raising pressure of vapor that cannot escape through the carbon film that is formed at the surface of the stick from flame heat. This process resembles glass blowing or volcanic activity, where the carbon acts as the glass or earth’s crust, respectively. These observations suggest that new interesting tubular nanostructures with different properties on the inside and outside can be produced in a relatively simple way, utilizing processes of combustion of starch-rich biomass materials.
Highlights
Combustion-like processes are an important means of producing carbon structures
The structures that have been produced in these processes include: sponge-like nanostructures derived from hydrothermal carbonization (HTC) of biomass [7,8], tubular/worm-like carbon nanotube (CNT) structures obtained by microwave induced processing [9], and multiwall CNTs by vapor deposition of ethanol on bamboo charcoal [10]
We focused on investigating the surface structures of our samples, utilizing scanning transmission electron microscopy (STEM)
Summary
Combustion-like processes are an important means of producing carbon structures. Biomass is becoming important as a source for advanced carbon structures. A recent review of the progress of biomass-derived carbon materials for use in e.g., fuel cells, water-splitting devices, super-capacitors, and batteries has been presented [6]. The processes for synthesizing the carbon materials include direct pyrolysis, hydrothermal carbonization (HTC), and iono-thermal carbonization. The structures that have been produced in these processes include: sponge-like nanostructures derived from HTC of biomass [7,8], tubular/worm-like carbon nanotube (CNT) structures obtained by microwave induced processing [9], and multiwall CNTs by vapor deposition of ethanol on bamboo charcoal [10]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
