91µÎµÎ

Updated: Sun, 10/06/2024 - 10:30

From Saturday, Oct. 5 through Monday, Oct. 7, the Downtown and Macdonald Campuses will be open only to 91µÎµÎ students, employees and essential visitors. Many classes will be held online. Remote work required where possible. See Campus Public Safety website for details.

Du samedi 5 octobre au lundi 7 octobre, le campus du centre-ville et le campus Macdonald ne seront accessibles qu’aux étudiants et aux membres du personnel de l’Université 91µÎµÎ, ainsi qu’aux visiteurs essentiels. De nombreux cours auront lieu en ligne. Le personnel devra travailler à distance, si possible. Voir le site Web de la Direction de la protection et de la prévention pour plus de détails.

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Sharmistha Bhadra

Sharmistha Bhadra
Contact Information
Phone: 
514-398-8094
Email address: 
sharmistha.bhadra [at] mcgill.ca
Group: 
Full Member
Department: 
Electrical & Computer Engineering
Area(s): 
Sustainable Industrial Processes & Manufacturing
Current research: 

Sharmistha Bhadra received the Ph.D. degree in electrical engineering from the University of Manitoba in 2015. Before joining to 91µÎµÎ, she was a NSERC postdoctoral fellow in the Department of Electrical and Computer Engineering at the University of British Columbia. Her research interest includes printed electronics, sensors and actuators, microelectronics, RF/microwave circuits & systems.

Aiming to develop low-cost innovative technology solutions, Dr. Bhadra researches printed and flexible electronics, micro/nanoelectronics, sensors and actuators, and RF/microwave circuits and systems. In particular, she is interested to develop low-cost, low-power bio and chemical sensors and medical implants.

Areas of interest: 
  • Non-destructive detection of fish spoilage using a wireless basic volatile sensor
  • Monitoring acidic and basic volatile concentration using a pH-electrode based wireless passive sensor
  • Fluid embeddable coupled coil sensor for wireless pH monitoring in a bioreactor
  • Corrosion potential sensor for remote monitoring of civil structure based on printed circuit board
  • A wireless passive sensor for temperature compensated remote pH monitoring
  • A wireless embedded passive sensor for monitoring the corrosion potential of reinforcing steel
  • Electrode potential-based coupled coil sensor for remote pH monitoring
  • Wireless passive sensor for remote pH monitoring
  • Near field chip-less tag for food quality monitoring
  • An inductively coupled passive tag for remote basic volatile sensing
  • Wireless passive sensor for pH monitoring inside a small bioreactor
  • A wireless volatile organic absorption pH sensor using a mixed metal oxide electrode
  • An embedded inductively coupled printed circuit board based corrosion potential sensor
  • A wireless passive pH sensor for real-time in vivo milk quality monitoring
  • Inductively coupled corrosion potential sensor for steel reinforced concrete with time domain gating interrogation
  • A wireless passive sensor for pH monitoring employing temperature compensation
  • A wireless passive pH sensor based on pH electrode potential measurement
  • Coupled coil sensor for detecting surface corrosion on steel reinforcement
  • Coupled resonant coil sensors with increased interrogation distance

7 SDG Affordable and clean energy9 SDG Industry, innovation, and infrastructure

Stream: 
SDG 7 Affordable and Clean Energy
SDG 9 Industry, Innovation and Infrastructure
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