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Measurement of moisture-dependent ion diffusion constants in wood cell wall layers using time-lapse micro X-ray fluorescence microscopyAuthor(s): Joseph E. Jakes; Samuel L. Zelinka; Christopher G. Hunt; Peter Ciesielski; Charles R. Frihart; Daniel Yelle; Leandro Passarini; Sophie-Charlotte Gleber; David Vine; Stefan Vogt
Source: Scientific Reports. 10(1): 484. 15 p.
Publication Series: Scientific Journal (JRNL)
Station: Forest Products Laboratory
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DescriptionOur future bioeconomy depends on increased utilization of renewable lignocellulosic biomass. Controlling the diffusion of chemicals, such as inorganic ions, within secondary plant cell walls is central to many biomass applications. However, insufficient understanding of intra-cell-wall diffusion within secondary plant cell walls is hindering the advancement of many lignocellulosic biomass applications. In this work, X-ray fluorescence microscopy was used to measure diffusion constants of K+, cu2+, and Cl− diffusing through loblolly pine (Pinus taeda) cell wall layers under 70%, 75%, or 80% relative humidity (RH). Results revealed that diffusion constants increased with RH, the larger Cu2+ diffused more slowly than the K+, and the Cl− diffusion constant was the same as that for the counter cation, indicating cations and anions diffused together to maintain charge neutrality. Comparison with electrical conductivity measurements showed that conductivity is being controlled by ion mobility over these RH. The results further support that intra-cell-wall diffusion of inorganic ions is a Fickian diffusion process occurring through rubbery amorphous polysaccharides, which contradicts previous assertions that intra-cell-wall diffusion is an aqueous process occurring through water pathways. Researchers can now utilize polymer science approaches to engineer the molecular architecture of lignocellulosic biomass to optimize properties for specific end uses.
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CitationJakes, Joseph E.; Zelinka, Samuel L.; Hunt, Christopher G.; Ciesielski, Peter; Frihart, Charles R.; Yelle, Daniel; Passarini, Leandro; Gleber, Sophie-Charlotte; Vine, David; Vogt, Stefan. 2020. Measurement of moisture-dependent ion diffusion constants in wood cell wall layers using time-lapse micro X-ray fluorescence microscopy. Scientific Reports. 10(1): 484. 15 p.
KeywordsDiffusion, wood, X-ray fluorescence microscopy, ionic conductivity
- Mechanism for diffusion through secondary cell walls in lignocellulosic biomass
- Threshold for ion movements in wood cell walls below fiber saturation observed by X-ray fluorescence microscopy (XFM)
- Acetylation increases relative humidity threshold for ion transport in wood cell walls – a means to understanding decay resistance
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