Visualization of wood cell structure during cellulose purification via high resolution X-ray CT and spectroscopy

Abstract

Wood is a heterogeneous material with multiple scales. Revealing the three-dimensional structure of wood tissue in multiple dimensions works as a prerequisite for the reorganization, modification and high-value utilization of wood. By adopting high resolution X-ray micro computed tomography (XμCT), the three-dimensional structural changes during cellulose purification were reconstructed. In the meantime, the changing process in the chemical composition of wood cell wall was demonstrated in situ using laser Raman spectroscopy imaging technology. Moreover, cellular changes on a two-dimensional scale were observed by ordinary optical, fluorescence, and polarizing microscopes respectively. XμCT results indicated that the disruption of the cell structure of chinese fir (Cunninghamia lanceolata (Lamb.) Hook.) by purification treatment started between the diameter walls of the tracheids, while that of the poplar (Populus sp.) cell structure started between the vessels or between the vessels and the wood rays. Such kind of disruption in cell structure was more pronounced after the hemicellulose was removed, with adjacent cells scattered and deformed. In the first step of matrix removal, the cell wall got thinner primarily out of lignin removal, while in the process of hemicellulose removal, the cell wall swelled with the lye. The Raman images illustrated that the distribution of purified cellulose in the cell wall was related to the degree of cell disruption. In undeformed cell walls, the cellulose was evenly distributed, whereas in shrunken and deformed cell walls, it was unevenly scattered.