Understanding the local structure of disordered carbons from cellulose and lignin

An electron microscopy investigation was performed to understand the relationship between the microstructure and properties of carbonized cellulose and lignin (softwood kraft lignin) relative to the structure of the original biomass components. Structure details at micro- and molecular levels were investigated by scanning transmission electron microscopy. Atomic-resolution images revealed the presence of random disordered carbon in carbonized cellulose (C-CNC) and of large domains of well-ordered carbon with graphite sheet structure in carbonized lignin (C-Lignin). These structural differences explain why C-CNC exhibits higher surface area and porosity than C-Lignin. The presence of certain well-ordered carbon in carbonized lignin indicates some of the carbon in lignin are graphitized with heat treatment temperature up to 950 degrees C. This result is encouraging for future endeavors of attaining acceptable modulus of carbon fiber from lignin given suitable modifications to the chemistry and structure of lignin. The results of this research contribute to an improved understanding of the carbonization mechanism of the key cellulose and lignin components of biomass materials.

Automated summary

An electron microscopy investigation was performed to understand the relationship between the microstructure and properties of carbonized cellulose and lignin, revealing structural differences that explain the higher surface area and porosity of carbonized cellulose. Additionally, the presence of certain well-ordered carbon in carbonized lignin indicates potential for obtaining acceptable moduli of carbon fiber from lignin with appropriate modifications. This research contributes to an improved understanding of the carbonization mechanism of cellulose and lignin components in biomass materials.