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Vanadium dioxide to revolutionise electronics

by Mark Tyson on 6 February 2018, 11:11

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Scientists at the École polytechnique fédérale de Lausanne (EPFL), Switzerland, are rather excited about the properties and possibilities they see in vanadium dioxide (VO2). In a news post today, on the EPFL blog, it was claimed that VO2 could outperform silicon and give rise to a new generation of electronics. The scientists see great opportunities for the material in pushing possibilities - especially in the fields of space communication systems, neuromorphic computing, and high-frequency radars.

VO2 is very interesting to scientists as it behaves as an insulator at room temperature but as a conductor at temperatures above 68°C. The insulator-conductor change occurs because at that temperature the material changes from a crystalline atomic structure to a metallic one. Such a property change is called a ‘metal-insulator transition’, or MIT for short. The phase change in VO2 takes less than a nanosecond – an attractive property for electronics.

The EPFL blog explains that the MIT occurs at a temperature too low to be useful in electronics. However, EPFL researchers have managed to get the MIT to trigger at temperatures above 100°C by adding germanium to VO2.

Electronically interesting properties of VO2 don’t end with the above. “VO2 is also sensitive to other factors that could cause it to change phases, such as by injecting electrical power, optically, or by applying a THz radiation pulse,” says Adrian Ionescu, the EPFL professor who heads the school’s Nanoelectronic Devices Laboratory (Nanolab) and also serves as the Phase-Change Switch project coordinator.

VO2 properties as used in a PHASE‐CHANGE SWITCH

The EPFL research project will continue to at least 2020 and has been granted €3.9 million of EU funding. Large tech companies that see potential here include Thales of France and the Swiss branch of IBM Research, which are also contributing resources to the project.



HEXUS Forums :: 3 Comments

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Having something dependent on temperature seems like it would be very difficult to control in a meaningful way, not only would you need to accurately measure the temperature but you also need some way of increasing and decreasing the temperature of each individual part.
Corky34
Having something dependent on temperature seems like it would be very difficult to control in a meaningful way, not only would you need to accurately measure the temperature but you also need some way of increasing and decreasing the temperature of each individual part.

hence their interest in whether they can induce the phase change by other means. Equally though a temperature driven activation would allow design of sections of, say, a CPU/GPU core that only kick in under high-stress + temp boosting performance on demand, but gating off when idle/for low usage. The drain current doesn't look too good atm though, log scale on the y axis - so they'd need to sort that out first.
True but it seems there are easier ways to boost performance on demand than depending on temperature, it's interesting but it seems to trying to reinvent the wheel.