Nanostrain

This article may contain excessive or inappropriate references to self-published sources. Please help improve it by removing references to unreliable sources where they are used inappropriately. (October 2023) (Learn how and when to remove this message)

Nanostrain was an EU-funded project (EMRP IND54) to characterise piezoelectric materials for future fast digital switch designs.^[1][2][3]

The switching may only need a much lower voltage and be faster with lower power consumption than CMOS.^[4]

Calculations suggest that small PiezoElectronic Transistors (combining piezoelectric and piezoresistive materials) could need much less energy to switch and allow clock speeds of 30 GHz (10 times current CMOS), with a hundred times less power than today’s devices.^[5]

The consortium includes many European national institutes and industrial partners, including IBM.^[6][7]

This section needs expansion. You can help by adding to it. (October 2023)

Nanostrain was initially funded for 3 years, and included 6 work packages. Some results were reported in 2014.^[6]

This section needs expansion. You can help by adding to it. (October 2023)

A final report was published in July 2017, work continues in the EMPIR ADVENT project.^[8]

• Piezotronics
• Beyond CMOS – Possible future digital logic technologies

• EMRP Nanostrain project at XMaS - for PiezoElectronic Transistor, includes video presentation and interview
• EMRP project IND54 Nanostrain featured in New Scientist and The Telegraph Aug 2015 - links to traditional news coverage

This electromagnetism-related article is a stub. You can help Wikipedia by expanding it.

• v
• t
• e