Gender
Male
Location
Braga
Birthday:
January 6
I am...
Engineer
My research field or area of interest innanotechnology
Nanofluidics
Interest in...
Nanofluidics and nanoparticles
Publication list
--(selected)-- Bento D., Sousa D., Yaginuma T., Garcia V., Lima R., Miranda JM, Microbubble moving in blood flow in microchannels: effect on the cell-free layer and cell local concentration, Biomedical Microdevices, 19 (1), 6, 2017. Rodrigues, R.O., Bañobre-López, M., Gallo, J., Tavares, P.B., Silva, A.M.T., Lima, R., Gomes, H.T., Hemocompatibility of Iron Oxide Nanoparticles synthetized for Theranostic Applications: a Novel Microfluidic Study, Journal of Nanoparticle Research, 18 (7), 1-17. 2016. Faustino V., SO Catarino S. O., Lima R., Minas G., Biomedical microfluidic devices by using low-cost fabrication techniques: A review, Journal of biomechanics, 49 (11), 2280-2292, 2016. Rodrigues R.O., Pinho D., Bento D., Lima R., Ribeiro J., Wall expansion assessment of an intracranial aneurysm model by a 3D Digital Image Correlation System, Measurement, 88, 262-270, 2016. Muñoz-Sánchez B. N, Silva S. F., Pinho D., Vega E. J., and Lima R., 2016. Generation of micro-sized PDMS particles by a flow focusing technique for biomicrofluidics applications. Biomicrofluidics 10, 014122, 2016. Rodrigues RO, Pinho D, Faustino V, Lima R, A simple microfluidic device for the deformability assessment of blood cells in a continuous flow, Biomedical Microdevices, 17 (6), 1-9, 2015 Pinto, E.; Faustino, V.; Rodrigues, R.O.; Pinho, D.; Garcia, V.; Miranda, J.M.; Lima, R. A Rapid and Low-Cost Nonlithographic Method to Fabricate Biomedical Microdevices for Blood Flow Analysis. Micromachines, 6, 121-135, 2015. Pastrana-Martínez, L.M., Pereira, N., Lima, R., Gomes, H.T., Silva, A.M.T. “Degradation of diphenhydramine by photo-Fenton using magnetically recoverable iron oxide nanoparticles as catalyst”, Chemical Engineering Journal, 261, 45-52, 2015. Faustino V, Pinho D, Yaginuma T, Calhelha R, Ferreira I, Lima R. “Extensional flow-based microfluidic device: deformability assessment of red blood cells in contact with tumor cells.” BioChip J., 8(1): 42-47, 2014. Yaginuma, T., M. S. N. Oliveira, Lima, R., Ishikawa, T., Yamaguchi T. "Human red blood cell behavior under homogeneous extensional flow in a hyperbolic-shaped microchannel", Biomicrofluidics, 7, 054110, 2013. Pinho, D., Yaginuma, Lima, R., “A microfluidic device for partial cell separation and deformability assessment”, BioChip J, 7(4), 367-374, 2013. Pinho, D., Gayubo, F., Pereira A. I., Lima, R. “A comparison between a manual and automatic method to characterize red blood cell trajectories.” International Journal for Numerical Methods in Biomedical Engineering, 29(9), 977-987, 2013. Leble V., Lima R., et al. "Asymmetry of red blood cell motions in a microchannel with a diverging and converging bifurcation" Biomicrofluidics, 5, 044120, 2011. Lima, R., et al., “Axisymmetric PDMS microchannels for in vitro haemodynamics studies”, Biofabrication, 1, 3, 035005, 2009. Lima, R., et al., “Measurement of individual red blood cell motions under high hematocrit conditions using a confocal micro-PTV system,”, Annals of Biomedical Engineering, 37, 8, 1546-1559, 2009. Fujiwara, H., et al., “Red blood cell motions in a high hematocrit blood flowing through a stenosed micro-channel”, Journal of Biomechanics, 42, 838-843, 2009. Lima, R., et al., “Radial dispersion of red blood cells in blood flowing through glass capillaries: role of heamatocrit and geometry”, Journal of Biomechanics, 41, 2188-2196, 2008. Lima, R., et al., “In vitro blood flow in a rectangular PDMS microchannel: experimental observations using a confocal micro-PIV system.” Biomedical Microdevices, 10, 2, 153-167, 2008. Lima, R., et al., “In vitro confocal micro-PIV measurements of blood flow in a square microchannel: the effect of the haematocrit on instantaneous velocity profiles.” Journal of Biomechanics, 40, 2752-2757, 2007. Lima, R., et al., “Confocal micro-PIV measurements of three dimensional profiles of cell suspension flow in a square microchannel”, Measurement Science and Technology 17, 797-808, 2006.
Researchgroup, Institute, University, School, Company name
Minho University
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