Analysis of Donnan-dialyzer irreproducibility and experimental study of a microfluidic parallel-plate membrane-separation module for total analysis systems

• Published in: Journal of membrane science Vol. 460; pp. 148 - 159
• Main Authors: Kim, Dohyun, Judy, Jack W.
• Format: Journal Article
• Language: English
• Published: Amsterdam Elsevier B.V 15.06.2014; Elsevier
• Subjects: Chemical analysis; Chemistry; Colloidal state and disperse state; Deviation; Dialysis; Donnan dialysis; Exact sciences and technology; General and physical chemistry; Ion-exchange membrane; Mathematical analysis; Membrane separation; Membranes; Microfluidics; Modules; Parallel-plate dialyzer; Tubes; Membrane separation; Ion-exchange membrane; Donnan dialysis; Parallel-plate dialyzer; Microfluidics; Fluid mechanics; lon-exchange membrane; Membrane; Dialysis; Experimental study; Parallel plate
• ISSN: 0376-7388; 1873-3123
• DOI: 10.1016/j.memsci.2014.02.029

We report irreproducibility analysis of miniaturized, batch, continuous stirred-tank Donnan dialyzers (CSDD) designed for a membrane-separation module of chemical analysis systems. Theoretical analysis indicates that a high exchange capacity of ion-exchange membrane >1 mol L−1) causes a significant irreproducibility of the CSDDs when the dialysate/sample volume is relatively small (<10mL) and the ionic strength is low (<0.01M). Numerical simulation based on Nernst–Planck flux equation and Donnan-equilibrium equation shows a significant deviation from the ideal Donnan-dialyzer response, and this irreproducibility is verified with experiments. In order to address the irreproducibility issue, we introduce a novel, microfluidic, parallel-plate Donnan-dialytic membrane-separation module (PDMM) with recirculation tube. The recirculation tube works as a dialysate/sample container as well as an effective mixer. The rationally designed PDMM has advantages over the CSDDs in that (1) the dialysis throughput is improved (6 folds), and (2) the dialysis irreproducibility is reduced (4 folds). Dialysis efficiency of our PDMM is also high (~91%), compared with that of flow-through parallel-plate dialyzers (usually ~1%). [Display omitted] •Modeled irreproducibility of a continuous stirred-tank Donnan dialyzer (CSDD).•Experimentally verified the dialyzer irreproducibility.•Introduced a novel parallel-plate Donnan-dialytic membrane-separation module (PDMM).•Irreproducibility (4x) and throughput (6x) of the PDMM improved over the CSDDs.•Dialysis efficiency of the PDMM is ~91%, much higher than flow-through dialyzers.