Add to ORKGIn this work, a drop-and-measure optofluidic platform that exploits capillary microfluidic concepts to infiltrate high-aspect-ratio (HAR) one-dimensional (1D) silicon/air photonic crystals (PhCs), this latter being used as sensing ele-ments, is reported. The platform, which is fabricated by electrochemical micromachining (ECM) technology, is op-tically characterized by measuring PhC reflectivity spectra upon capillary infiltration of liquids with different refrac-tive indices into the PhC air-gaps. Fiber grooves integrated in the platform allow the measurements to be carried out using optical fibers positioned in front of the PhC. Good reliability, sensitivity, and limit of detection are obtained, with best sensitivity value of 310 nm/RIU a...
In this work, all-silicon, integrated optofluidic platforms, fabricated by electrochemical micromach...
In this work, all-silicon, integrated optofluidic platforms, fabricated by electrochemical micromach...
In this work, all-silicon, integrated optofluidic platforms, fabricated by electrochemical micromach...
In this work, a drop-and-measure optofluidic platform that exploits capillary microfluidic concepts ...
In this work, a drop-and-measure optofluidic platform that exploits capillary microfluidic concepts ...
In this work, vertical, silicon/air one-dimensional photonic crystals (1DPhCs) are proposed as sensi...
In this work, vertical, silicon/air one-dimensional photonic crystals (1DPhCs) are proposed as sensi...
In this work, fabrication and testing of an optofluidic microsystem exploiting high aspect-ratio, ve...
In this work, fabrication and testing of an optofluidic microsystem exploiting high aspect-ratio, ve...
In this work, feasibility of an optofluidic microsystem (OFM) in which vertical high aspect-ratio (H...
In this work, feasibility of an optofluidic microsystem (OFM) in which vertical high aspect-ratio (H...
In this work, feasibility of an optofluidic microsystem (OFM) in which vertical high aspect-ratio (H...
In this work, feasibility of an optofluidic microsystem (OFM) in which vertical high aspect-ratio (H...
In this work, all-silicon, integrated optofluidic platforms, fabricated by electrochemical micromach...
In this work, all-silicon, integrated optofluidic platforms, fabricated by electrochemical micromach...
In this work, all-silicon, integrated optofluidic platforms, fabricated by electrochemical micromach...
In this work, all-silicon, integrated optofluidic platforms, fabricated by electrochemical micromach...
In this work, all-silicon, integrated optofluidic platforms, fabricated by electrochemical micromach...
In this work, a drop-and-measure optofluidic platform that exploits capillary microfluidic concepts ...
In this work, a drop-and-measure optofluidic platform that exploits capillary microfluidic concepts ...
In this work, vertical, silicon/air one-dimensional photonic crystals (1DPhCs) are proposed as sensi...
In this work, vertical, silicon/air one-dimensional photonic crystals (1DPhCs) are proposed as sensi...
In this work, fabrication and testing of an optofluidic microsystem exploiting high aspect-ratio, ve...
In this work, fabrication and testing of an optofluidic microsystem exploiting high aspect-ratio, ve...
In this work, feasibility of an optofluidic microsystem (OFM) in which vertical high aspect-ratio (H...
In this work, feasibility of an optofluidic microsystem (OFM) in which vertical high aspect-ratio (H...
In this work, feasibility of an optofluidic microsystem (OFM) in which vertical high aspect-ratio (H...
In this work, feasibility of an optofluidic microsystem (OFM) in which vertical high aspect-ratio (H...
In this work, all-silicon, integrated optofluidic platforms, fabricated by electrochemical micromach...
In this work, all-silicon, integrated optofluidic platforms, fabricated by electrochemical micromach...
In this work, all-silicon, integrated optofluidic platforms, fabricated by electrochemical micromach...
In this work, all-silicon, integrated optofluidic platforms, fabricated by electrochemical micromach...
In this work, all-silicon, integrated optofluidic platforms, fabricated by electrochemical micromach...