Add to ORKGPhotonic crystal nanobeam cavities with high-quality factors are very sensitive to the changes of the dielectric properties of their surroundings. Utilizing this high sensitivity and by applying chemical functionalization, an ultrasensitive chemical sensor for gases based on a nanobeam cavity was demonstrated. A limit of detection of 1.5 parts-per-billion (ppb) in ambient conditions, determined from the noise level of the system, was achieved for nerve agent simulant methyl salicylate. The nanobeam cavity’s nonlinear thermo-optical bistability is also utilized to realize a threshold detector for cumulative chemical exposure
'This research will develop an entirely new class of chemical sensing technology that will enable qu...
Silicon photonic crystal sensors have become very attractive for various optical sensing application...
A biosensor design based on a photonic crystal nanobeam cavity with an optomechanical positive feedb...
We present a high-sensitivity, multi-use optical gas sensor based on a one-dimensional polymer photo...
International audienceDiamond slotted photonic crystal (PhC) cavities were fabricated and used for g...
Due to the demand for renewable energies, gasses likeH2 need to be detected with sensitive, accurate...
Abstract—We have recently developed planar photonic crystal nanolasers based on porous cavity design...
In recent years, there has been growing interest in optical sensors based on microcavities due to th...
We have realized photonic crystal lasers that permit the introduction of analyte within the peak of ...
We investigate hollow photonic crystal structures consisting in air-slot photonic crystal nanocaviti...
Photonic crystal nanobeam cavities with high-quality factors are very sensitive to the dielectric pr...
Two-dimensional photonic crystals (PC) can provide a universal platform for nanocavity optical reson...
The sensitivities of resonant wavelengths of photonic crystal (PhC) membrane nanocavities with embed...
© 2015 Optical Society of America. The miniaturization of optical sensors is essential for the reali...
This paper describes experimental measurement results for photonic crystal sensor devices which have...
'This research will develop an entirely new class of chemical sensing technology that will enable qu...
Silicon photonic crystal sensors have become very attractive for various optical sensing application...
A biosensor design based on a photonic crystal nanobeam cavity with an optomechanical positive feedb...
We present a high-sensitivity, multi-use optical gas sensor based on a one-dimensional polymer photo...
International audienceDiamond slotted photonic crystal (PhC) cavities were fabricated and used for g...
Due to the demand for renewable energies, gasses likeH2 need to be detected with sensitive, accurate...
Abstract—We have recently developed planar photonic crystal nanolasers based on porous cavity design...
In recent years, there has been growing interest in optical sensors based on microcavities due to th...
We have realized photonic crystal lasers that permit the introduction of analyte within the peak of ...
We investigate hollow photonic crystal structures consisting in air-slot photonic crystal nanocaviti...
Photonic crystal nanobeam cavities with high-quality factors are very sensitive to the dielectric pr...
Two-dimensional photonic crystals (PC) can provide a universal platform for nanocavity optical reson...
The sensitivities of resonant wavelengths of photonic crystal (PhC) membrane nanocavities with embed...
© 2015 Optical Society of America. The miniaturization of optical sensors is essential for the reali...
This paper describes experimental measurement results for photonic crystal sensor devices which have...
'This research will develop an entirely new class of chemical sensing technology that will enable qu...
Silicon photonic crystal sensors have become very attractive for various optical sensing application...
A biosensor design based on a photonic crystal nanobeam cavity with an optomechanical positive feedb...