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Tomás Palacios Group

Advanced Semiconductor Materials and Devices

Welcome!

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My group at MIT has been pushing the limits of microelectronics demonstrating new extreme material semiconductor devices since 2006. We combine new electronic materials (e.g. 2D materials and III-Nitrides) with novel device concepts (e.g. lateral and vertical FinFETs, field emitters, and chemical sensors), and showcase this combination through impactful system-level prototypes. To ensure maximum impact, we use the new physics of novel materials to improve a wide variety of semiconductor devices. We enjoy prototyping systems based on these novel devices. Almost all our students learn across the entire nanoelectronics stack, from materials to systems, with a strong emphasis on devices. We believe in integrating electrical engineering, device physics, and materials science multidisciplinary approaches to push the boundaries of microelectronics. Our group enthusiastically works with our partners and sponsors in industry and academia to invent the next generation microelectronic technologies, from zero-energy systems for 6G networks to power electronics to address the energy challenge, or microprocessors for a future Venus rover. 

We are currently working on a wide variety of projects, including GaN devices for quantum computing, cell-sized microsystems, high-temperature electronics for Venus applications, large-area distributed neural networks based on MoS2, and graphene-based electronic nose technology, to name only a few. 

Our group has repeatedly set state-of-the-art standards for device design experiments within GaN and 2D electronics. For example, we are the only group in the world to receive the IEEE George Smith award for the best paper published in IEEE Electron Device Letters twice, one for the invention of the tri-gate GaN transistor and a second one for the invention of the vertical FinFET power device. We have also demonstrated the highest operating frequencies in GaN transistors, as well as the first MoS2 electronic circuits, among many other key technologies.​​​

Vision and Mission

We work at the intersection of new semiconductor physics and novel materials that impact semiconductor devices and systems with unprecedented performance. Our work actively aims to develop semiconductor devices and systems with unprecedented performance, including:

  • High-frequency electronics (>300 GHz)

  • High voltage electronics (600 V – 10 kV) for power conversion

  • Digital electronics in a post-Si scenario

  • High-temperature electronics

  • Ubiquitous and large-area electronics

  • New concepts for biosensors and energy harvesting devices

  • Visit the Projects page to learn more about our work.

  • News archives of our group can be found here

We encourage you to reach Prof. Palacios by email with an attached resume expressing your interest and previous work, or if you have any questions related to our work. Click here to read about Research Advising Philosophy. 

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