February 11, 2020
Postdoc Jobs at MIT in Biomedical Antennae, Nanoelectronics and Magnetics
| Position Type: | Research |
|---|---|
| Priority: | No |
| Degree Requirement: | Post Doctorate |
Postdoc Jobs at MIT in biomedical antennae, nanoelectronics and magnetics
Postdoc positions available in the Nano-Cybernetic Biotrek (NCB) (http://www.mit.edu/~profsarkar/) research lab at MIT. NCB aims to fuse nanoelectronics, applied physics, and biology with two major research directions:
- develop novel nanoelectronic devices (such as Quantum Devices, Spintronics, Neuromorphic) employing ingenious device physics and smart nano-materials for achieving extreme energy efficiency and scalability;
- merge such next generation technologies with living-matter creating unique nanomachine-bio hybrid systems, with remote control and wireless communication abilities to achieve unprecedented possibilities for probing/sensing and modulating (for therapeutics) our brain and body.
NCB has opening for postdoc in wireless sensing of chemical and biological signals. The postdoc will conduct research to design and develop wireless sensing technologies, implantable and wearable antennae and transmitter/receiver systems for diverse applications in wireless energy harvesting, sensing, magnetic resonance imaging and biomedical applications. Strong background in electromagnetism, antenna design and RF engineering is required.
More details about the openings and application steps can be found at http://www.mit.edu/~profsarkar/positionsavailable.html
Responsibilities
• Design and develop new magnetic and spintronics devices for diverse applications such as energy harvesters, sensors, actuators, resonators, memory, transistors etc
• Perform multi-physics simulations to optimize the device
• Fabricate the devices using cleanroom facilities and perform device characterization
More details about the openings and application steps can be found at http://www.mit.edu/~profsarkar/positionsavailable.html
Responsibilities
• Design and develop new nanoelectronic devices for diverse applications such as transistors, sensors, biomedical devices etc
• Perform multi-physics simulations to optimize the device
• Fabricate the devices using cleanroom facilities and perform device characterization
More details about the openings and application steps can be found at http://www.mit.edu/~profsarkar/positionsavailable.html
Deblina Sarkar, PhD
Assistant Professor at Massachusetts Institute of Technology
AT&T Career Development Chair Professor at MIT Media Arts and Sciences
Founder and Director of Nano-Cybernetic Biotrek Research Lab.