Diego Sánchez Saldaña
About
Submicron particle separation and characterization
- Identify the physical mechanism limiting the separation process of nanosized particles
- Design and fabricate a standing surface acoustic waves micro-fluidic based separation device with a nanoplasmonic sensor
Publications
2023
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Trujillo, Ricardo Matias;
Almanza Alvarez, Gonzalo;
Saldana, Diego Sanchez;
Røsand, Øystein;
Høydal, Morten Andre;
Fernandino, Maria.
(2023)
In-droplet cell lysis of AC16 human cardiomyocyte cells via surface acoustic waves.
Lab on a Chip
Academic article
-
Almanza Alvarez, Gonzalo;
Trujillo, Ricardo Matias;
Saldana, Diego Sanchez;
Røsand, Øystein;
Høydal, Morten;
Fernandino, Maria.
(2023)
Effect of the shear rate and residence time on the lysis of AC16 human cardiomyocyte cells via surface acoustic waves.
Biomicrofluidics
Academic article
Journal publications
-
Trujillo, Ricardo Matias;
Almanza Alvarez, Gonzalo;
Saldana, Diego Sanchez;
Røsand, Øystein;
Høydal, Morten Andre;
Fernandino, Maria.
(2023)
In-droplet cell lysis of AC16 human cardiomyocyte cells via surface acoustic waves.
Lab on a Chip
Academic article
-
Almanza Alvarez, Gonzalo;
Trujillo, Ricardo Matias;
Saldana, Diego Sanchez;
Røsand, Øystein;
Høydal, Morten;
Fernandino, Maria.
(2023)
Effect of the shear rate and residence time on the lysis of AC16 human cardiomyocyte cells via surface acoustic waves.
Biomicrofluidics
Academic article