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David Fariña Santana
David Fariña Santana
Afiliación desconocida
Dirección de correo verificada de cin2.es
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Suitable combination of noble/ferromagnetic metal multilayers for enhanced magneto-plasmonic biosensing
D Regatos, B Sepúlveda, D Fariña, LG Carrascosa, LM Lechuga
Optics express 19 (9), 8336-8346, 2011
1352011
Au/Fe/Au multilayer transducers for magneto-optic surface plasmon resonance sensing
D Regatos, D Farina, A Calle, A Cebollada, B Sepúlveda, G Armelles, ...
Journal of Applied Physics 108 (5), 2010
1252010
Direct and label-free quantification of micro-RNA-181a at attomolar level in complex media using a nanophotonic biosensor
CS Huertas, D Fariña, LM Lechuga
ACS Sensors 1 (6), 748-756, 2016
642016
Linear readout of integrated interferometric biosensors using a periodic wavelength modulation
S Dante, D Duval, D Fariña, AB González‐Guerrero, LM Lechuga
Laser & Photonics Reviews 9 (2), 248-255, 2015
352015
Surface plasmon resonance biosensors for highly sensitive detection in real samples
B Sepúlveda, LG Carrascosa, D Regatos, MA Otte, D Fariña, LM Lechuga
Biosensing Ii 7397, 205-215, 2009
242009
Configurable Quadrant Photodetector, an Improved Position Sensitive Device (PSD)
R Esper-Chain Falcon, A Medina Escuela, J Sendra Sendra, D Farina
Sensors Journal, IEEE 16 (1), 109-119, 2016
23*2016
Out-of-plane single-mode photonic microcantilevers for integrated nanomechanical sensing platform
D Fariña, M Álvarez, S Márquez, C Domínguez, LM Lechuga
Sensors and Actuators B: Chemical 232, 60-67, 2016
92016
Sensitivity analysis for improving nanomechanical photonic transducers biosensors
D Fariña, M Álvarez, M Márquez, C Dominguez, LM Lechuga
Journal of Physics D: Applied Physics 48 (33), 335401, 2015
92015
Development of a surface plasmon resonance and nanomechanical biosensing hybrid platform for multiparametric reading
M Alvarez, D Fariña, AM Escuela, JR Sendra, LM Lechuga
Review of Scientific Instruments 84 (1), 2013
72013
Towards a biosensing multiple platform based on an array of hollow microbridge resonators
S Marquez, M Alvarez, D Fariña, C Domínguez, LM Lechuga
SENSORS, 2014 IEEE, 329-331, 2014
32014
Método para el análisis del índice de refracción de un medio dieléctrico adyacente a un medio plasmónico, y dispositivo correspondiente
B Sepúlveda, D Regatos, G Armelles Reig, LM Lechuga, D Fariña
32011
Biosensores opto-nanomecánicos basados en microcantilevers
D Fariña, M Álvarez, JR Sendra, LM Lechuga
Intekhnia 6 (1), 45-55, 2011
32011
Wavelength Modulated Bimodal Interferometer for Highly Sensitive Biosensing Applications
S Dante, D Duval, AB González-Guerrero, D Fariña, C Domínguez, ...
Optical Sensors, SeTh2C. 5, 2014
12014
Sensitivity enhancement of magneto-optical surface plasmon resonance (MOSPR) biosensors
D Regatos, A Calle, D Fariña, A Cebollada, G Armelles, B Sepúlveda, ...
J. Appl. Phys 108, 0
1
Geometric Method: A Novel, Fast and Accurate Solution for the Inverse Problem in Risley Prisms
JD Sandoval, K Delgado, D Fariña, F Puente, R Esper-Chaín, M Martín
Applied Sciences 12 (21), 11087, 2022
2022
Simulation and characterization of hollow microbridge resonators for label-free biosensing
S Marquez, M Alvarez, D Fariña, C Dominguez, LM Lechuga
Bio-MEMS and Medical Microdevices II 9518, 159-166, 2015
2015
Sensitivity analysis for improving nanomechanical photonic transducers biosensors
LM Lechuga, D Fariña, M Alvarez, S Márquez, C Dominguez
British Journal of Applied Physics 48 (33), 2015
2015
Desarrollo de un sistema biosensor opto-mecánico basado en cantilevers
D Fariña
Universidad de Las Palmas de Gran Canaria, 2014
2014
Implementación de una plataforma de medida de dispositivo biosensores basados en trasductores opto-nanomecánicos
D Fariña, M Alvarez, LL Gómez
Revista española de electrónica, 54-55, 2012
2012
Method for the analysis of the refractive index of a dielectric medium adjacent to a plasmonic medium, and corresponding device
B Sepúlveda, D Regatos, G Armelles Reig, LM Lechuga, D Fariña
2011
El sistema no puede realizar la operación en estos momentos. Inténtalo de nuevo más tarde.
Artículos 1–20