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All Outputs (3)

Microfluidic platforms for performing surface-based clinical assays (2011)
Journal Article
Tarn, M. D., & Pamme, N. (2011). Microfluidic platforms for performing surface-based clinical assays. Expert review of molecular diagnostics, 11(7), 711-720. https://doi.org/10.1586/ERM.11.59

The need for fast, specific and portable diagnostic systems for clinical assays has, in recent years, led to an explosion of research into microfluidic chip-based immunoassays towards rapid point-of-care analysis. Such devices exploit small dimension... Read More about Microfluidic platforms for performing surface-based clinical assays.

Flow focussing of particles and cells based on their intrinsic properties using a simple diamagnetic repulsion setup (2011)
Journal Article
Rodríguez-Villarreal, A. I., Tarn, M. D., Madden, L. A., Lutz, J. B., Greenman, J., Samitier, J., & Pamme, N. (2011). Flow focussing of particles and cells based on their intrinsic properties using a simple diamagnetic repulsion setup. Lab on a chip, 11(7), 1240-1248. https://doi.org/10.1039/c0lc00464b

The continuous flow focussing and manipulation of particles and cells are important factors in microfluidic applications for performing accurate and reproducible procedures downstream. Many particle focussing methods require complex setups or channel... Read More about Flow focussing of particles and cells based on their intrinsic properties using a simple diamagnetic repulsion setup.

Continuous flow processes on single magnetic and diamagnetic particles in microfluidic devices (2011)
Thesis
Tarn, M. D. (2011). Continuous flow processes on single magnetic and diamagnetic particles in microfluidic devices. (Thesis). University of Hull. Retrieved from https://hull-repository.worktribe.com/output/4211533

Magnetic microparticles have seen increasing interest in (bio)chemical processes in recent years due to their various surface functionalities, high surface-to-volume ratio, small sizes, and ease of manipulation via magnetic fields. However, conventio... Read More about Continuous flow processes on single magnetic and diamagnetic particles in microfluidic devices.