Abstract
Diffusion of fluorescently labeled dextran of varying molecular weight in wood pretreated by steam explosion was studied with a confocal microscope. The steam explosion experiments were conducted at relatively mild conditions relevant for materials biorefinery at a pressure of 14 bars for 10 min. The method of fluorescence recovery after photobleaching (FRAP) was used to perform diffusion measurements locally in the wood microstructure. It was found that the FRAP methodology can be used to observe differences in the diffusion coefficient based on localization in the microstructure, i.e., earlywood, latewood, and cell wall. Microscopic changes due to steam explosion were seen to increase diffusion of the smaller 3-kDa dextran diffusion probe in the earlywood, while the latewood structure was not affected in any significant way. Macroscopic changes to the structure in the form of ruptures due to the steam explosion pretreatment were observed to increase the rate of diffusion for the larger 40-kDa dextran probe.
Highlights
Biomass as a renewable resource is an important step toward a sustainable society by lowering the use of fossil fuels
Additional cell wall measurements were primarily taken of latewood due to the thicker cell walls present in that part of the wood structure, with a rectangle region of interest (ROI) size of 3 μm for the 40-kDa diffusion probe
The results show high obstruction due to the cell wall; no difference was found between the native and steam-exploded and impacted wood (SEIW) samples
Summary
Biomass as a renewable resource is an important step toward a sustainable society by lowering the use of fossil fuels. Wallenberg Wood Science Center, The Royal Institute of Technology, Chalmers University of Technology, 100 44 Stockholm, Sweden. Wood Science and Technology (2018) 52:1395–1410 products and materials from high molecular weight of cellulose, hemicellulose, and lignin. Other than the inherent polymers found in wood, enzymes are of interest in the biorefinery concept to aid in the hydrolysis of polysaccharides (Hasunuma et al 2013). I.e., higher pressures, degradation of the main constituents takes place to a higher degree (Wang et al 2009) and is desired if for example a bio-fuel platform is used. For the biorefinery focusing on materials, it is desired to retain large molecular weight of the constituents, milder conditions are favorable
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