Tag Archives: QTC

Carbon nanotubes the natural way; weaving carbon nanotubes into heaters; how designers think; robotic skin

Today I’ll be focusing, in a very mild way, on carbon nanotubes. First, a paper in Astrophysical Journal Letters (Feb. 2010 issue) titled, The Formation of Graphite Whiskers in the  Primitive Solar Nebula, is where an international team of scientists have shared an intriguing discovery about carbon nanotubes. From the news item on physorg.com,

Space apparently has its own recipe for making carbon nanotubes, one of the most intriguing contributions of nanotechnology here on Earth, and metals are conspicuously missing from the list of ingredients.

[Joesph] Nuth’s team [based at NASA’s Goddard Space Flight Center] describes the modest chemical reaction. Unlike current methods for producing carbon nanotubes—tiny yet strong structures with a range of applications in electronics and, ultimately, perhaps even medicine—the new approach does not need the aid of a metal catalyst. “Instead, nanotubes were produced when graphite dust particles were exposed to a mixture of carbon monoxide and hydrogen gases,” explains Nuth.

The structure of the carbon nanotubes produced in these experiments was determined by Yuki Kimura, a materials scientist at Tohoku University, Japan, who examined the samples under a powerful transmission electron microscope. He saw particles on which the original smooth graphite gradually morphed into an unstructured region and finally to an area rich in tangled hair-like masses. A closer look with an even more powerful microscope showed that these tendrils were in fact cup-stacked carbon nanotubes, which resemble a stack of Styrofoam cups with the bottoms cut out.

Since metals are used as catalysts for creating carbon nanotubes, this discovery hints at the possibility of a ‘greener’ process. In conjunction with the development at McGill (mentioned on this blog here) for making chemical reactions greener by using new nonmetallic catalysts, there may be some positive environmental impacts due to nanotechnology.

Meanwhile here on earth, there’s another new carbon nanotube development and this time it has to do with the material’s conductivity. From the news item on Nanowerk,

An interesting development using multifilament yarns is a new fabric heater made by weaving CNTEC® conductive yarns from Kuraray Living Co., Ltd. This fabric generates heat homogeneously all over the surface because of its outstanding conductivity and is supposed to be the first commercial use of Baytubes® CNTs from Bayer MaterialScience in the Japanese market.

The fabric heater is lightweight and thin, compact and shows a long-lasting bending resistance. It can be used for instance for car seats, household electrical appliances, for heating of clothes and as an anti-freezing material. Tests revealed that it may for example be installed in the water storage tank of JR Hokkaido’s “Ryuhyo-Norokko” train. Inside this train the temperature drops to around -20 °C in wintertime, because so far no heating devices other than potbelly stoves are available. According to JR Hokkaido railway company the fabric heater performed well in preventing the water from freezing. A seat heating application of the fabric heater is still on trial on another JR Hokkaido train line. It is anticipated that the aqueous dispersions might as well be suitable for the compounding of various kinds of materials.

I sometimes suspect that these kinds of nanotechnology-enabled applications are going to change the world in such a fashion that our ancestors (assuming we survive disasters) will be able to understand us only dimly. The closest analogy I have is with Chaucer. An English-speaker trying to read The Canterbury Tales in the language that Chaucer used to write, Middle English, needs to learn an unfamiliar language.

On a completely different topic, Cliff Kuang at Fast Company has written an item on designers and the Myer-Briggs personality test (industrial designer Michael Roller’s website with his data),

Designers love to debate about what personality type makes for the best designer. So Michael Roller took the extra step of getting a bunch of designers to take the Myers Briggs personality test, and published the results …

In other words, designers are less akin to the stereotypical touchy-feely artist, and more like engineers who always keep the big picture in mind.

This reminds me of a piece I wrote up on Kevin Dunbar (here) and his work investigating how scientists think. He came to the conclusion that when they use metaphors and analogies to describe their work to scientists in specialties not identical to their own, new insights and breakthroughs can occur. (Note: he takes a more nuanced approach than I’m able to use in a single, descriptive sentence.) What strikes me is that scientists often need to take a more ‘artistic and intuitive’ [my words] approach to convey information if they are to experience true breakthroughs.

My last bit is an item about more tactile robotic skin. From the news item on the Azonano website,

Peratech Limited, the leader in new materials designed for touch technology solutions, has announced that they have been commissioned by the MIT Media Lab to develop a new type of electronic ‘skin’ that enables robotic devices to detect not only that they have been touched but also where and how hard the touch was.

The key to the sensing technology is Peratech’s patented ‘QTC’ materials. QTC’s, or Quantum Tunnelling Composites, are a unique new material type which provides a measured response to force and/or touch by changing its electrical resistance – much as a dimmer light switch controls a light bulb. This enables a simple electronic circuit within the robot to determine touch. Being easily formed into unique shapes – including being ‘draped’ over an object much like a garment might, QTC’s provide a metaphor [emphasis mine] for how human skin works to detect touch.

Yes, I found another reference to metaphors although this metaphor is being used to convey information to a nontechnical audience. As for the ‘graphite whiskers’ in the title for the article which opened this posting, it is another metaphor and here, I suspect, it’s being used to describe something to other scientists who have specialties that are not identical to the researchers’ (as per Kevin Dunbar’s work).