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DTSTAMP:20220428T201452Z
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DTSTART;TZID=America/New_York:20220425T183000
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DESCRIPTION:The motivation behind this work is to build a chemical gas sens
 or that can be sensitive and selective using optical nano Plasmonic sensor
 . Optical Nano Plasmonic sensors are devices that are designed with their 
 resonance frequency in the visible range. The basic principle governing th
 e sensing mechanism for optical Plasmonic sensor is the refractive index s
 ensing. The changes in the refractive index of the environment around the 
 plasmonic sensor led to the change in the resonant frequency of the sensor
 . This inherent property of the device makes it extremely selective to dif
 ferent gases since different gases have different refractive index. In thi
 s work\, we use this inherent quality of the Nano Plasmonic sensor as bein
 g selective and have developed different Nano material coatings for differ
 ent plasmonic sensors. Our techniques make these devices more sensitive an
 d selective to different chemical gas molecules.\n\nCo-sponsored by: WE200
 49 \n\nSpeaker(s): Prof. Mona Zaghloul\, \n\nVirtual: https://events.vtool
 s.ieee.org/m/310504
LOCATION:Virtual: https://events.vtools.ieee.org/m/310504
ORGANIZER:fsemandy@ieee.org
SEQUENCE:8
SUMMARY:Nano Materials Coating for Plasmonic Chemical Gas Sensors
URL;VALUE=URI:https://events.vtools.ieee.org/m/310504
X-ALT-DESC:Description: <br /><p>The motivation behind this work is to buil
 d a chemical gas sensor that can be sensitive and selective using optical 
 nano Plasmonic sensor. Optical Nano Plasmonic sensors are devices that are
  designed with their resonance frequency in the visible range. The basic p
 rinciple governing the sensing mechanism for optical Plasmonic sensor&nbsp
 \; is the refractive index sensing. The changes in the refractive index of
  the environment around the plasmonic sensor led to the change in the reso
 nant frequency of the sensor. This inherent property of the device makes i
 t extremely selective to different gases since different gases have differ
 ent refractive index. In this work\, we use this inherent quality of the N
 ano Plasmonic sensor as being selective and have &nbsp\;developed differen
 t Nano material coatings for different plasmonic sensors. Our techniques m
 ake these devices more sensitive and selective &nbsp\;to different chemica
 l gas molecules.</p>
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