The combination of fluidics and optics at the nanoscale opens the door for a plethora of novel applications including sensors, biosensors, lab-on-a-chip devices and molecular imaging on nanostructured surfaces.
Related publications:
- Oscar Malvar, Daniel Ramos, Adrián Sanz-Jiménez, AlbertoMartín-Pérez “Optomechanical mass sensing” Zurich Instruments Application Note (2022)
- Alberto Martín-Pérez, Daniel Ramos, Marina L Yubero, Sergio García-López, Priscila M Kosaka, Javier Tamayo, Montserrat Calleja “Hydrodynamic assisted multiparametric particle spectrometry” Scientific Reports 11 (1), 1-9 (2021)
- A Martín-Pérez, D Ramos, J Tamayo, M Calleja “Nanomechanical Molecular Mass Sensing Using Suspended Microchannel Resonators” Sensors 21 (10), 3337 (2021)
- JJ Ruz, O Malvar, E Gil-Santos, D Ramos, M Calleja, J Tamayo “A review on theory and modelling of nanomechanical sensors for biological applications” Processes 9 (1), 164 (2021)
- Alberto Martin-Perez, Daniel Ramos, Eduardo Gil-Santos, Sergio García-López, Marina L Yubero, Priscila M Kosaka, Álvaro San Paulo, Javier Tamayo, Montserrat Calleja “Mechano-optical analysis of single cells with transparent microcapillary resonators” ACS sensors 4 (12), 3325-3332 (2019)
- A Martín-Pérez, D Ramos, J Tamayo, M Calleja “Real-time particle spectrometry in liquid environment using microfluidic-nanomechanical resonators” 2019 20th International Conference on Solid-State Sensors, Actuators and Microsystems & Eurosensors XXXIII (TRANSDUCERS & EUROSENSORS XXXIII) pp 2146-2149 (2019)
- A Martín-Pérez, D Ramos, J Tamayo, M Calleja “Coherent optical transduction of suspended microcapillary resonators for multi-parameter sensing applications” Sensors 19 (23), 5069 (2019)
- O Malvar, D Ramos, C Martínez, P Kosaka, J Tamayo, M Calleja “Highly sensitive measurement of liquid density in air using suspended microcapillary resonators” Sensors 15 (4), 7650-7657 (2015)