Interaction of bacterial populations in coupled microchambers
Nagy, K, Sipos, O, Gombai, E, Kerenyi, A, Valkai, S, Ormos, P, Galajda, P
Published in Chemical and Biochemical Engineering Quarterly (2014)
Published in Chemical and Biochemical Engineering Quarterly (2014)
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Opto-fluidic micromanipulation system based on integrated polymer waveguides
Jakl, P, Sery, M, Jezek, J, Zemanek, P, Ormos, P, Valkai, S, Kelemen, L
Published in Journal of Optoelectronics and Advanced Materials (01.07.2007)
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Published in Journal of Optoelectronics and Advanced Materials (01.07.2007)
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Introduction When culturing bacteria in artificial microhabitats, such as in microfluidic devices, microchambers and microreactors, the ecological and microbiological aspects must be considered. In such devices and experiments cells often live in structured environments that from an ecological viewpoint could be considered “patchy” (i.e. with strong spatial heterogeneities and variations in suitability for the cells).1 In such artificial habitats, the formation of a metapopulation, a set of inte
Nagy, K., Sipos, O., Gombai, É., Kerényi, Á., Valkai, S., Ormos, P., Galajda, P.
Published in Chemical and biochemical engineering quarterly (2014)
Published in Chemical and biochemical engineering quarterly (2014)
Get full text
Journal Article