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  • Article - 24 Oct 2017
    Advances in nanotechnology are increasingly being utilized in the life sciences. Designs and structures at the nanometer scale are being applied to fields such as pharmaceuticals, biotechnology and...
  • Article - 11 Apr 2017
    Nanomaterials are finding a wide variety of applications including next generation computer chips, improved insulating materials, LED displays, high energy density batteries, high power magnets, high...
  • Article - 5 Apr 2017
    A research team from the Massachusetts Institute of Technology’s (MIT) Department of Materials Science and Engineering has recently developed nanowire-coated fibers for optoelectronic probing of...
  • Article - 4 Apr 2017
    The antibacterial properties of nanosilver have been successfully applied for a variety of health treatments including intravenous, urinary and tracheal catheters, endotracheal tubes, bone cements,...
  • Article - 23 Feb 2017
    Until recently, magnets that operate at room temperature conditions have typically been metallic in nature and have utilized their d-orbitals to facilitate their magnetism.
  • Article - 17 Feb 2017
    Of the most common applications for nanotechnology in food safety and quality measures, are nano-encapsulated agrochemicals, food additives and supplements, and antimicrobial active food packaging...
  • Article - 15 Feb 2017
    Researchers in the Department of Bioengineering at the University of Illinois have recently shown that photo luminescent CNPs can display a reversal of their optical properties in cancer cells. This...
  • Article - 3 Aug 2015
    The Optimized Wire Treatment (OWIT) project focuses on the development and validation of a new deposition technique enabling uniform coatings with superior physical properties on fibers and wires.
  • 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 - 24 Jan 2013
    Carbon nanotubes can improve the electrical, thermal and mechanical properties of ceramic matrix composite materials.

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