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Our over-arching research theme is to make active nanometer-scale material architectures with engineering membranes as the primary focus. Applications of these systems range from water purification, environmental remediation, energy storage, high-value chemical extractions, biotechnology and medical devices. Natural protein channels, found in all living cell walls, are of particular inspiration since at the channel-scale, they outperform any man-made systems in terms of speed and selectivity; by orders of magnitude using precisely placed molecular pumps.
Our group had pioneered efforts to make membranes based on flow through the cores of carbon nanotubes, showing dramatic nanofluidic flow rates 10,000 fold faster than conventional materials. This acts as an ideal and robust engineering platform to place active ‘gatekeepers’ at pore entrances that actively bind to targets and pump across the macroscopically stable membrane.
Efforts initiating at UW are to invent new electro-active membrane platforms that can mimic Nature’s molecular pumps in robust material platforms for biotech, energy and environmental applications.
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Meeting abstractsno. 38 (2021): 1117-1117
ECS Transactionsno. 8 (2021): 309-316
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