W. I. Milne scite author profile

The ability to grow carbon nanotubes/nanofibres (CNs) with a high degree of uniformity is desirable in many applications. In this paper, the structural uniformity of CNs produced by plasma enhanced chemical vapour deposition is evaluated for field emission applications. When single isolated CNs were deposited using this technology, the structures exhibited remarkable uniformity in terms of diameter and height (standard deviations were 4.1 and 6.3% respectively of the average diameter and height). The lithographic conditions to achieve a high yield of single CNs are also discussed. Using the height and diameter uniformity statistics, we show that it is indeed possible to accurately predict the average field enhancement factor and the distribution of enhancement factors of the structures, which was confirmed by electrical emission measurements on individual CNs in an array.

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Determination of mechanical properties of carbon nanotubes and vertically aligned carbon nanotube forests using nanoindentation

Teo

Lau

et al. 2003

Journal of the Mechanics and Physics of Solids

215

121

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Flexible surface acoustic wave resonators built on disposable plastic film for electronics and lab-on-a-chip applications

Jin

Zhou

et al. 2013

Sci Rep

124

104

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Flexible electronics are a very promising technology for various applications. Several types of flexible devices have been developed, but there has been limited research on flexible electromechanical systems (MEMS). Surface acoustic wave (SAW) devices are not only an essential electronic device, but also are the building blocks for sensors and MEMS. Here we report a method of making flexible SAW devices using ZnO nanocrystals deposited on a cheap and bendable plastic film. The flexible SAW devices exhibit two wave modes - the Rayleigh and Lamb waves with resonant frequencies of 198.1 MHz and 447.0 MHz respectively, and signal amplitudes of 18 dB. The flexible devices have a high temperature coefficient of frequency, and are thus useful as sensitive temperature sensors. Moreover, strong acoustic streaming with a velocity of 3.4 cm/s and particle concentration using the SAW have been achieved, demonstrating the great potential for applications in electronics and MEMS.

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Defect pool in amorphous-silicon thin-film transistors

et al. 1992

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W. I. Milne

Plasma enhanced chemical vapour deposition carbon nanotubes/nanofibres how uniform do they grow?

Determination of mechanical properties of carbon nanotubes and vertically aligned carbon nanotube forests using nanoindentation

Flexible surface acoustic wave resonators built on disposable plastic film for electronics and lab-on-a-chip applications

Defect pool in amorphous-silicon thin-film transistors

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