D. Chanda (UM) 12424 Research Parkway Suite 400
12424 Research Parkway Suite 400Author Of 2 Presentations
MB4.4 - HYBRID PLASMONIC SENSOR FOR THE DETECTION OF NEUROTRANSMITTERS DIRECTLY FROM THE BLOOD
Abstract
Abstract
The proposed work intends to create an enzyme and label free hybrid plasmonic nano-biosensor for neurotrnasmitter dopamine sensing with high level of sensitivity (<100 fM) and specificity based on an on-chip microfluidic device with the capability to handle and process biological fluid samples.
TuA3.1 - SKIN-LIKE FULL-COLOR ANGLE INDEPENDENT PLASMONIC REFLECTIVE DISPLAYS
Abstract
Abstract
By tuning light absorption with liquid crystal (LC), the color reflected from a nanostructured surface can be changed as a function of voltage. The engineered plasmonic surface allows LC reorientation and overlap between plasmonic fields and LC, enabling large tunability across the entire visible spectrum.
Presenter Of 2 Presentations
MB4.4 - HYBRID PLASMONIC SENSOR FOR THE DETECTION OF NEUROTRANSMITTERS DIRECTLY FROM THE BLOOD
Abstract
Abstract
The proposed work intends to create an enzyme and label free hybrid plasmonic nano-biosensor for neurotrnasmitter dopamine sensing with high level of sensitivity (<100 fM) and specificity based on an on-chip microfluidic device with the capability to handle and process biological fluid samples.
TuA3.1 - SKIN-LIKE FULL-COLOR ANGLE INDEPENDENT PLASMONIC REFLECTIVE DISPLAYS
Abstract
Abstract
By tuning light absorption with liquid crystal (LC), the color reflected from a nanostructured surface can be changed as a function of voltage. The engineered plasmonic surface allows LC reorientation and overlap between plasmonic fields and LC, enabling large tunability across the entire visible spectrum.