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Article overview
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Entropy-driven pumping across zeolites and biological channels | | Tom Chou
; Detlef Lohse
; | | Date: |
1 May 1999 | | Journal: | PRL 82(17), 3552-3555, (1999) | | Subject: | Statistical Mechanics; Materials Science; Subcellular Processes | cond-mat.stat-mech cond-mat.mtrl-sci q-bio.SC | | Affiliation: | Stanford University, University of Twente | | Abstract: | When two binary solutions are separated by a permeable barrier, the individual species typically diffuse and mix, dissipating their chemical potential gradients. However, we use model lattice simulations to show that single-file molecular-sized channels (such biomembrane channels and zeolites) can exhibit diffusional pumping, where one type of particle uses its entropy of mixing to drive another up its chemical potential gradient. Quantitative analyses of rates and efficiencies of transport are plotted as functions of transmembrane potential, pore length, and particle-pore interactions. Our results qualitatively explain recent measurements of ``negative’’ osmosis and suggest new, more systematic experiments, particularly in zeolite transport systems. | | Source: | arXiv, cond-mat/9905001 | | Services: | Forum | Review | PDF | Favorites | |
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