Tuesday, 30 September 2014
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Scaffold process could lead to new-generation MEMS devices

A new generation of microscopic devices with properties such as resistance to corrosion and heat might be possible thanks to research from physicists at Brigham Young University in Utah.

Using carbon nanotubes as part of a reinforcing structure, the team claims to have opened the possibility of using previously unused materials to build microelectromechanical system (MEMS) devices.

Generally, MEMS devices such as accelerometers and loadcells are made from silicon or silicon-based materials and are built using techniques similar to those used to make electronic components. Other materials that might be useful, including ceramics, metals and other semiconductors, generally aren’t used because the techniques to manipulate them and build them into complex shapes have not been available, according to the Brigham Young team.

The team has devised a method called carbon nanotube templated microfabrication (CNT-M), which uses arrays of vertically aligned nanotubes — known as ‘forests’ — as a scaffolding to support the deposition of these non-typical MEMS materials. Using this scaffolding, the physicists claim to have built tall, narrow, three-dimensional microstructures from tungsten, molybdenum and nickel, which have properties such as high electrical and thermal conductivity, a high melting point, corrosion resistance, low thermal expansion and hardness.

The team has already used the technique to make chemical detection devices that can be used in pharmaceutical production, according to team member Robert Davis, and is investigating ways that it might be used to build long-life batteries.


Readers' comments (1)

  • Are the nanotubes microfabrication diamond polished in the process?

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