About BFlow2021-03-15T14:18:43+00:00

BFlow stems from a joint consolidated research trajectory of research groups from the Universidade de Santiago de Compostela (USC) and Health Research Institute of Santiago de Compostela (FIDIS)

Determination of hemodynamic risk for vascular disease in planar artery bifurcations
Otero-Cacho et al., Scientific Reports. 8, pp. 1-7. 2018. Link

Aluminum thin film enhaced IR nanosecond laser-induced frontside etching or transparent materials.
Nieto et al., Optics and Lasers in Engineering. 88, pp. 233-242. 2017. Link

Laser Surface Microstructuring of Biocompatible Materials Using a Microlens Array and the Talbot Effect: Evaluation of the Cell Adhesion.
Aymerich et al., Materials. 10, pp. 1-13. 2017. Link

Laser technique for the fabrication of blood vessels-like models for preclinical studies of pathologies under flow conditions.
Aymerich et al., Biofabrication. 9, pp. 1-7. 2017. Link

Sol-Gel Glass Coating Synthesis for Different Applications: Active Gradient-Index Materials, Microlens Arrays and Biocompatible Channels.
Gómez Varela et al., Recent Applications in Sol-Gel Synthesis. 12, pp. 231-252. 2017. Link

Study of Different Sol-Gel Coatings to Enhance the Lifetime of PDMS Devices: Evaluation of Their Biocompatibility.
Aymerich et al., Materials. 9, 728, pp. 1-11. 2016. Link

A laser-based technology for fabricating a soda-lime glass based microfluidic device for circulating tumor cell capture.
Nieto et al., Colloids and Surfaces B: Biointerfaces. 134, pp. 363–369. 2015. Link


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