Ignacio R. Matias
Ignacio R. Matias
Electrical and Electronic Engineering Professor
Verified email at unavarra.es
Title
Cited by
Cited by
Year
Optimization of sensitivity in long period fiber gratings with overlay deposition
I Del Villar, IR Matías, FJ Arregui, P Lalanne
Optics Express 13 (1), 56-69, 2005
3652005
Optical fiber humidity sensor based on a tapered fiber coated with agarose gel
C Bariain, IR Matı́as, FJ Arregui, M Lopez-Amo
Sensors and Actuators B: Chemical 69 (1-2), 127-131, 2000
2592000
Optical fiber humidity sensor using a nano Fabry–Perot cavity formed by the ionic self-assembly method
FJ Arregui, Y Liu, IR Matias, RO Claus
Sensors and Actuators B: Chemical 59 (1), 54-59, 1999
2281999
Deposition of overlays by electrostatic self-assembly in long-period fiber gratings
I Del Villar, M Achaerandio, IR Matías, FJ Arregui
Optics Letters 30 (7), 720-722, 2005
1622005
Lossy mode resonance generation with indium-tin-oxide-coated optical fibers for sensing applications
I Del Villar, CR Zamarreño, M Hernaez, FJ Arregui, IR Matias
Journal of Lightwave Technology 28 (1), 111-117, 2010
1612010
Volatile organic compound optical fiber sensors: A review
C Elosua, IR Matias, C Bariain, FJ Arregui
Sensors 6 (11), 1440-1465, 2006
1602006
Design of humidity sensors based on tapered optical fibers
JM Corres, FJ Arregui, IR Matias
Journal of Lightwave technology 24 (11), 4329-4336, 2006
1512006
Sensitivity optimization of tapered optical fiber humidity sensors by means of tuning the thickness of nanostructured sensitive coatings
JM Corres, FJ Arregui, IR Matías
Sensors and Actuators B: Chemical 122 (2), 442-449, 2007
1402007
Optical fiber pH sensor based on lossy-mode resonances by means of thin polymeric coatings
CR Zamarreño, M Hernáez, I Del Villar, IR Matías, FJ Arregui
Sensors and Actuators B: Chemical 155 (1), 290-297, 2011
1372011
Simultaneous measurement of strain and temperature using a fiber Bragg grating and a thermochromic material
C Fernandez-Valdivielso, IR Matıas, FJ Arregui
Sensors and Actuators A: Physical 101 (1-2), 107-116, 2002
1372002
Optical fiber pH sensors based on layer-by-layer electrostatic self-assembled Neutral Red
J Goicoechea, CR Zamarreño, IR Matias, FJ Arregui
Sensors and Actuators B: Chemical 132 (1), 305-311, 2008
1292008
Design rules for lossy mode resonance based sensors
I Del Villar, M Hernaez, CR Zamarreño, P Sánchez, ...
Applied optics 51 (19), 4298-4307, 2012
1242012
Tunable humidity sensor based on ITO-coated optical fiber
CR Zamarreño, M Hernaez, I Del Villar, IR Matias, FJ Arregui
Sensors and Actuators B: Chemical 146 (1), 414-417, 2010
1152010
Optical fiber nanometer-scale Fabry–Perot interferometer formed by the ionic self-assembly monolayer process
FJ Arregui, IR Matias, Y Liu, KM Lenahan, RO Claus
Optics Letters 24 (9), 596-598, 1999
1141999
An experimental study about hydrogels for the fabrication of optical fiber humidity sensors
FJ Arregui, Z Ciaurriz, M Oneca, IR Matıas
Sensors and Actuators B: Chemical 96 (1-2), 165-172, 2003
1112003
Optical fiber refractometers based on lossy mode resonances supported by TiO 2 coatings
M Hernáez, I Del Villar, CR Zamarreño, FJ Arregui, IR Matias
Applied optics 49 (20), 3980-3985, 2010
1042010
Optical fiber sensor based on lutetium bisphthalocyanine for the detection of gases using standard telecommunication wavelengths
C Bariain, IR Matıas, C Fernandez-Valdivielso, FJ Arregui, ...
Sensors and Actuators B: Chemical 93 (1-3), 153-158, 2003
982003
Optical Fiber Humidity Sensors Using Nanostructured Coatings of SiO Nanoparticles
JM Corres, IR Matias, M Hernaez, J Bravo, FJ Arregui
IEEE Sensors Journal 8 (3), 281-285, 2008
962008
Fiber-optic pH-sensors in long-period fiber gratings using electrostatic self-assembly
JM Corres, I Del Villar, IR Matias, FJ Arregui
Optics letters 32 (1), 29-31, 2007
912007
Recent developments in fiber optics humidity sensors
J Ascorbe, JM Corres, FJ Arregui, IR Matias
Sensors 17 (4), 893, 2017
892017
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