Sammanfattning
The self-diffusion coefficients of water and toluene in Scots pine sapwood was measured using low field pulsed field gradient nuclear magnetic resonance (PFG-NMR). Wood chips of 8 mm diameter were saturated with the respective liquids, and liquid self-diffusion was then traced in one dimension orthogonal to the tracheid cell walls in the wood's radial direction. The experimental echo attenuation curves were exponential, and characteristic self-diffusion coefficients were produced for diffusion times spanning from very short times to times on the order of magnitude of seconds. Observed self-diffusion coefficients were decaying asymptotically as a function of diffusion time, an effect which was ascribed to the cell walls' restriction on confined liquid diffusion. The observed self-diffusion behavior in Scots pine sapwood was compared to self-diffusion coefficients obtained from simulations of diffusion in a square. Principles of molecular displacements in confined geometries were used for elucidating the wood's cellular structure from the observed diffusion coefficients. The results were compared with a mathematical model for diffusion between parallel planes. © 2006 American Chemical Society.
Originalspråk | Engelska |
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Sidor (från-till) | 2427-2434 |
Antal sidor | 8 |
Tidskrift | Journal of Physical Chemistry B |
Volym | 110 |
Nummer | 5 |
DOI | |
Status | Publicerad - sep. 2006 |
MoE-publikationstyp | A1 Tidskriftsartikel-refererad |