E3S Theme II: Nanomechanics eBook

By Center for Energy Efficient Electronics Science (editor)1; Tsu-Jae King Liu1; Farnaz Niroui2; Edgar Acosta3; Sergio Fabian Almeida3; Vladimir Bulovic2; Sara Fathipour1; Jinchi Han2; Jeffrey H. Lang2; Mariana Martinez3; Jose Mireles3; Rawan Naous1; Benjamin Osoba1; Jatin Patil2; Bivas Saha1; Mayuran Saravanapavanantham2; Urmita Sikder1; Vladimir Stojanovic1; Timothy Swager1; Aldo Vidana3; Junqiao Wu1; Alice Ye1; David Zubia3

1. University of California, Berkeley 2. Massachusetts Institute of Technology 3. University of Texas at El Paso

Download

This resource requires you to log in before you can proceed with the download.

Category

Downloads

Published on

Abstract

This eBook was written by faculty, postdoctoral researchers, students, and staff of the Center for Energy Efficient Electronics Science (E3S). The Center is a consortium of five world-class academic institutions: University of California at Berkeley, Massachusetts Institute of Technology, Stanford University, University of Texas at El Paso, and Florida International University. Researchers at E3S are working in a collaborative and innovative environment to make fundamental and conceptual breakthroughs in the underlying physics, chemistry, and materials science of electronic systems, breakthroughs needed to reduce these systems’ energy consumption by orders of magnitude.

The goal of the Nanomechanics team is to demonstrate low-voltage switching with nano-electromechanical (NEM) relays as ultra-low energy alternatives to the current-day transistor. In addition, guided by the Center’s System Integration team, strategies are investigated to apply zero-leakage NEM-based switching in a system application. The team is led by UC Berkeley Professor Tsu-Jae King Liu.

Bio

The Center for Energy Efficient Electronics Science (E3S) is a Science and Technology Center funded by the U. S. National Science Foundation, and is a consortium of world class academic institutions. We are working in a collaborative and innovative environment to make fundamental and conceptual breakthroughs in the underlying physics, chemistry, and materials science of electronic systems, breakthroughs needed to reduce these systems’ energy consumption by orders of magnitude.

https://e3s-center.berkeley.edu/research/nanomechanics/

Sponsored by

This course was created by the Center for Energy Efficient Electronics Science (E3S), a Science and Technology Center funded by the U. S. National Science Foundation (Award #0939514).

Cite this work

Researchers should cite this work as follows:

  • Center for Energy Efficient Electronics Science, Tsu-Jae King Liu, Farnaz Niroui, Edgar Acosta, Sergio Fabian Almeida, Vladimir Bulovic, Sara Fathipour, Jinchi Han, Jeffrey H. Lang, Mariana Martinez, Jose Mireles, Rawan Naous, Benjamin Osoba, Jatin Patil, Bivas Saha, Mayuran Saravanapavanantham, Urmita Sikder, Vladimir Stojanovic, Timothy Swager, Aldo Vidana, Junqiao Wu, Alice Ye, David Zubia (2020), "E3S Theme II: Nanomechanics eBook," https://nanohub.org/resources/32638.

    BibTex | EndNote

Tags

  1. actuators
  2. adhesion
  3. Center for Energy Efficient Electronics Science (E3S)
  4. electromechanical actuators
  5. Embedded Micro & Nano Systems
  6. endurance limit
  7. energy efficiency
  8. integrated circuits
  9. logic relay design
  10. MEMS
  11. Nano Electro-Mechanical Systems (NEMS)
  12. nanomechanics
  13. NEMS/MEMS
  14. relay-based integrated circuits
  15. reliability
  16. squitches
  17. Stritch-switch device
  18. tool:nanoadhesion