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Results 61 - 70 of 120 for Atomic Layer Deposition
  • Article - 8 Sep 2017
    Two dimensional (2D) materials are substances with a thickness measured in the nanometer (nm) scale.
  • Article - 11 Aug 2017
    Gallium Nitride (GaN) based light emitting diodes (LEDs) which utilize a quantum well structure have been used in the ultra-violet (UV) range for the past decade and have gathered a significant amount...
  • Article - 6 Apr 2017
    Like a bullet train speeding down the track, electrons whizz through graphene at velocities approaching the speed of light. This makes the material a promising successor to silicon in electronic and...
  • Article - 21 Mar 2017
    This article looks at analyzing novel nanomaterials, using spectral analysis to characterize silicene.
  • Article - 7 Mar 2017
    One of the biggest practical issues surrounding graphene is the commonplace methods that require the transfer of graphene onto an intended substrate.
  • Article - 1 Mar 2017
    A team of Korean scientists have announced a selection of metal oxide sensors that can detect these gases faster than commercially available detectors; and potentially be used in a new line of...
  • Article - 22 Feb 2017
    Researchers at the School of Engineering at RMIT University in Melbourne, Australia have developed and tested a novel technique in response to the dynamic challenges present during the production of...
  • Article - 7 May 2014
    Graphene is simply one atomic layer of graphite - a layer of sp2 bonded carbon atoms arranged in a hexagonal or honeycomb lattice. Graphite is a commonly found mineral and is composed of many layers...
  • Article - 18 Sep 2014
    Black silicon is a semiconductor material with a needle-shaped surface structure. It's similar to silicon but with a modified surface that has extremely low reflectivity and a high absorption rate of...
  • Article - 16 Sep 2014
    Nanowires have a number of exciting properties which are not exhibited by 3-D or bulk materials. This is due to the fact that electrons within the nanowires are quantum confined and have energy levels...

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