COPY Nano Field Emission Display Portfol

[b]COPY Nano Field Emission Display[/b]


Portfolio covering a new type of flat panel display consisting of low voltage color phosphors, specially coated carbon nanotubes, Nano materials to generate secondary electrons, and ionized noble gas, resulting in a bright, sharp, high contrast color image. Emerging technology that would result in a flat panel display utilizing less power, with better picture quality and lower manufacturing costs.


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[b]COPY Nano Field Emission Display[/b]


Portfolio covering a new type of flat panel display consisting of low voltage color phosphors, specially coated carbon nanotubes, Nano materials to generate secondary electrons, and ionized noble gas, resulting in a bright, sharp, high contrast color image. Emerging technology that would result in a flat panel display utilizing less power, with better picture quality and lower manufacturing costs.


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[b]COPY Nano Field Emission Display[/b]


Portfolio covering a new type of flat panel display consisting of low voltage color phosphors, specially coated carbon nanotubes, Nano materials to generate secondary electrons, and ionized noble gas, resulting in a bright, sharp, high contrast color image. Emerging technology that would result in a flat panel display utilizing less power, with better picture quality and lower manufacturing costs.


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[b]COPY Nano Field Emission Display[/b]


Portfolio covering a new type of flat panel display consisting of low voltage color phosphors, specially coated carbon nanotubes, Nano materials to generate secondary electrons, and ionized noble gas, resulting in a bright, sharp, high contrast color image. Emerging technology that would result in a flat panel display utilizing less power, with better picture quality and lower manufacturing costs.




[b]COPY Nano Field Emission Display[/b]


Portfolio covering a new type of flat panel display consisting of low voltage color phosphors, specially coated carbon nanotubes, Nano materials to generate secondary electrons, and ionized noble gas, resulting in a bright, sharp, high contrast color image. Emerging technology that would result in a flat panel display utilizing less power, with better picture quality and lower manufacturing costs.


ass="MsoNormal"> [b]COPY Nano Field Emission Display[/b]


Portfolio covering a new type of flat panel display consisting of low voltage color phosphors, specially coated carbon nanotubes, Nano materials to generate secondary electrons, and ionized noble gas, resulting in a bright, sharp, high contrast color image. Emerging technology that would result in a flat panel display utilizing less power, with better picture quality and lower manufacturing costs.


soNormal"> [b]COPY Nano Field Emission Display[/b]


Portfolio covering a new type of flat panel display consisting of low voltage color phosphors, specially coated carbon nanotubes, Nano materials to generate secondary electrons, and ionized noble gas, resulting in a bright, sharp, high contrast color image. Emerging technology that would result in a flat panel display utilizing less power, with better picture quality and lower manufacturing costs.


al"> [b]COPY Nano Field Emission Display[/b]


Portfolio covering a new type of flat panel display consisting of low voltage color phosphors, specially coated carbon nanotubes, Nano materials to generate secondary electrons, and ionized noble gas, resulting in a bright, sharp, high contrast color image. Emerging technology that would result in a flat panel display utilizing less power, with better picture quality and lower manufacturing costs.


b]COPY Nano Field Emission Display[/b]


Portfolio covering a new type of flat panel display consisting of low voltage color phosphors, specially coated carbon nanotubes, Nano materials to generate secondary electrons, and ionized noble gas, resulting in a bright, sharp, high contrast color image. Emerging technology that would result in a flat panel display utilizing less power, with better picture quality and lower manufacturing costs.


Nano Field Emission Display[/b]


Portfolio covering a new type of flat panel display consisting of low voltage color phosphors, specially coated carbon nanotubes, Nano materials to generate secondary electrons, and ionized noble gas, resulting in a bright, sharp, high contrast color image. Emerging technology that would result in a flat panel display utilizing less power, with better picture quality and lower manufacturing costs.


Field Emission Display[/b]


Portfolio covering a new type of flat panel display consisting of low voltage color phosphors, specially coated carbon nanotubes, Nano materials to generate secondary electrons, and ionized noble gas, resulting in a bright, sharp, high contrast color image. Emerging technology that would result in a flat panel display utilizing less power, with better picture quality and lower manufacturing costs.


Emission Display[/b]


Portfolio covering a new type of flat panel display consisting of low voltage color phosphors, specially coated carbon nanotubes, Nano materials to generate secondary electrons, and ionized noble gas, resulting in a bright, sharp, high contrast color image. Emerging technology that would result in a flat panel display utilizing less power, with better picture quality and lower manufacturing costs.


on Display[/b]


Portfolio covering a new type of flat panel display consisting of low voltage color phosphors, specially coated carbon nanotubes, Nano materials to generate secondary electrons, and ionized noble gas, resulting in a bright, sharp, high contrast color image. Emerging technology that would result in a flat panel display utilizing less power, with better picture quality and lower manufacturing costs.


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Portfolio covering a new type of flat panel display consisting of low voltage color phosphors, specially coated carbon nanotubes, Nano materials to generate secondary electrons, and ionized noble gas, resulting in a bright, sharp, high contrast color image. Emerging technology that would result in a flat panel display utilizing less power, with better picture quality and lower manufacturing costs.


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Portfolio covering a new type of flat panel display consisting of low voltage color phosphors, specially coated carbon nanotubes, Nano materials to generate secondary electrons, and ionized noble gas, resulting in a bright, sharp, high contrast color image. Emerging technology that would result in a flat panel display utilizing less power, with better picture quality and lower manufacturing costs.


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Portfolio covering a new type of flat panel display consisting of low voltage color phosphors, specially coated carbon nanotubes, Nano materials to generate secondary electrons, and ionized noble gas, resulting in a bright, sharp, high contrast color image. Emerging technology that would result in a flat panel display utilizing less power, with better picture quality and lower manufacturing costs.


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Portfolio covering a new type of flat panel display consisting of low voltage color phosphors, specially coated carbon nanotubes, Nano materials to generate secondary electrons, and ionized noble gas, resulting in a bright, sharp, high contrast color image. Emerging technology that would result in a flat panel display utilizing less power, with better picture quality and lower manufacturing costs.




Portfolio covering a new type of flat panel display consisting of low voltage color phosphors, specially coated carbon nanotubes, Nano materials to generate secondary electrons, and ionized noble gas, resulting in a bright, sharp, high contrast color image. Emerging technology that would result in a flat panel display utilizing less power, with better picture quality and lower manufacturing costs.


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oNormal"> Portfolio covering a new type of flat panel display consisting of low voltage color phosphors, specially coated carbon nanotubes, Nano materials to generate secondary electrons, and ionized noble gas, resulting in a bright, sharp, high contrast color image. Emerging technology that would result in a flat panel display utilizing less power, with better picture quality and lower manufacturing costs.


l"> Portfolio covering a new type of flat panel display consisting of low voltage color phosphors, specially coated carbon nanotubes, Nano materials to generate secondary electrons, and ionized noble gas, resulting in a bright, sharp, high contrast color image. Emerging technology that would result in a flat panel display utilizing less power, with better picture quality and lower manufacturing costs.


rtfolio covering a new type of flat panel display consisting of low voltage color phosphors, specially coated carbon nanotubes, Nano materials to generate secondary electrons, and ionized noble gas, resulting in a bright, sharp, high contrast color image. Emerging technology that would result in a flat panel display utilizing less power, with better picture quality and lower manufacturing costs.


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ype of flat panel display consisting of low voltage color phosphors, specially coated carbon nanotubes, Nano materials to generate secondary electrons, and ionized noble gas, resulting in a bright, sharp, high contrast color image. Emerging technology that would result in a flat panel display utilizing less power, with better picture quality and lower manufacturing costs.


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