Formation and Characterization of Hollow Microtubes by Thermal Treatment of Human Hair

Abstract: In this study, hollow microtubes were prepared via stepwise thermal treatment of human hair waste in the middle temperature range from 200 to 450 °C. The effect of the treatment temperature on the thermal decomposition of the hair was examined in terms of the dimension and wall thickness of the microtubes. The thermal decomposition behavior of the hair was analyzed via differential scanning calorimetry (DSC) and thermogravimetric analysis (TGA). The structure and morphology of the hollow microtubes were examin… Show more

“…This carbonized hollow hair has been utilized for electrochemical applications including electrodes because of its high electrical conductivity and excellent chemical stability. Im et al have systematically established the formation and further development of hollow microtubes from human hair via a stepwise thermal treatment 92) . The medulla initially formed hollow microtubes and the cortex was molten when heated around 250℃.…”

Recent Progress in Hair Science and Trichology

“…This carbonized hollow hair has been utilized for electrochemical applications including electrodes because of its high electrical conductivity and excellent chemical stability. Im et al have systematically established the formation and further development of hollow microtubes from human hair via a stepwise thermal treatment 92) . The medulla initially formed hollow microtubes and the cortex was molten when heated around 250℃.…”

Recent Progress in Hair Science and Trichology

Formation of human hair-Ag nanoparticle composites via thermal and photo-reduction: A comparison study