Patent application number | Description | Published |
20140252307 | SINGLE ELECTRON TRANSISTOR AND METHOD FOR FABRICATING THE SAME - A transistor and a fabrication method thereof. A transistor includes a channel region including linkers, formed on a substrate, and a metallic nanoparticle grown from metal ions bonded to the linkers, a source region disposed at one end of the channel region, a drain region disposed at the other end of the channel region opposite of the source region, and a gate coupled to the channel region and serving to control migration of at least one charges in the channel region. | 09-11-2014 |
20140252315 | SINGLE ELECTRON TRANSISTOR HAVING NANOPARTICLES OF UNIFORM PATTERN ARRANGEMENT AND METHOD FOR FABRICATING THE SAME - A transistor and a fabrication method thereof. A transistor includes a channel region including linkers, formed on a substrate, and metallic nanoparticles grown from metal ions bonded to the linkers, a source region disposed at one end of the channel region, a drain region disposed at the other end of the channel region opposite of the source region, and a gate coupled to the channel region and serving to control migration of charges in the channel region. The metallic nanoparticles have a substantially uniform pattern arrangement in the channel region. | 09-11-2014 |
20150174607 | METHOD FOR FABRICATING FLEXIBLE NANO STRUCTURE INCLUDING DIELECTRIC PARTICLE SUPPORTERS - Provided is a flexible nano structure including dielectric particle supporters, a fabrication method thereof, and an application device thereof. The method for fabricating a flexible nano structure includes: forming a flexible substrate; forming a plurality of dielectric particle supporters with linkers bonded thereto over the flexible substrate; forming a plurality of metal ions over the linkers; and forming one or more metallic nanoparticles over to the linkers. | 06-25-2015 |
20150174613 | METHOD FOR FABRICATING FLEXIBLE NANO STRUCTURE - Provided are a flexible nano structure, a fabrication method thereof, and an application device thereof. The method for fabricating a flexible nano structure includes: forming a flexible substrate; forming a plurality of linkers over the flexible substrate; forming a plurality of metal ions over the linkers; and forming one or more metallic nanoparticles over the linkers. | 06-25-2015 |
20150174656 | METHOD FOR FABRICATING A NANO STRUCTURE - Provided are a nano structure, a fabrication method thereof, and an application device thereof. The method for fabricating a nano structure includes: forming a substrate; forming a plurality of linkers over the substrate; forming a plurality of metal ions over the linkers; and forming one or more metallic nanoparticles over the linkers. | 06-25-2015 |
20150174855 | FLEXIBLE NANO STRUCTURE INCLUDING DIELECTRIC PARTICLE SUPPORTER - Provided are a flexible nano structure, a fabrication method thereof, and an application device using the same, The nano structure includes a flexible substrate; a plurality of dielectric particle supporters formed over the flexible substrate; and a plurality of linkers bonded to the dielectric particle supporters; and one or more metallic nanoparticles bonded to the linkers. | 06-25-2015 |
20150175411 | METHOD FOR FABRICATING NANO STRUCTURE INCLUDING DIELECTRIC PARTICLE SUPPORTERS - Provided is a nano structure including dielectric particle supporters, a fabrication method thereof, and an application device thereof. The method for fabricating a nano structure includes: forming a plurality of dielectric particle supporters over a substrate, the dielectric particle supporters including linkers thereon; forming a plurality of metal ions to the linkers; and forming one or more metallic nanoparticles over the linkers. | 06-25-2015 |
20150175633 | NANO STRUCTURE - Provided are a nano structure, a fabrication method thereof, and an application device using the same. The nano structure includes: a substrate; a plurality of linkers formed over the substrate; and one or more metallic nanoparticles grown from a plurality of metal ions bonded to the linkers. In the nano structure, metallic nanoparticles may have an average particle diameter of about 0.5 to 3.0 nm. | 06-25-2015 |
20150177138 | SENSOR INCLUDING NANOSTRUCTURE AND METHOD FOR FABRICATING THE SAME - Provided is a sensor having a nanostructure as a sensing element and a fabrication method thereof. The sensor includes a nanostructure as a sensing element for sensing a marker over a substrate, wherein the nanostructure includes: a linker layer, including linkers, bonded to the substrate; and metallic nanoparticles grown from metal ions bonded to the linkers. | 06-25-2015 |
20150177139 | SENSOR INCLUDING FLEXIBLE NANOSTRUCTURE AND METHOD FOR FABRICATING THE SAME - Provided is a sensor having a flexible nanostructure as a sensing element and a fabrication method thereof. The sensor includes a nanostructure as a sensing element for sensing a marker over a flexible substrate, wherein the nanostructure includes: a linker layer including linkers bonded to the flexible substrate; and metallic nanoparticles formed by the metal ions. | 06-25-2015 |
20150179299 | NANO STRUCTURE INCLUDING DIELECTRIC PARTICLE SUPPORTER - Provided are a nano structure, a fabrication method thereof, and an application device using the same. The nano structure includes a substrate; a dielectric particle supporter having a surface, wherein the dielectric particle supporter is formed over the substrate, and a linker bonded to the surface of the dielectric particle supporter; and a metallic nanoparticle bonded to the linker. | 06-25-2015 |
20150179738 | FLEXIBLE NANO STRUCTURE - Provided are a flexible nano structure, a fabrication method thereof, and an application device using the same. The nano structure includes: a flexible substrate; a plurality of linkers formed over the flexible substrate; and at least one metallic nanoparticle grown from a plurality of metal ions bonded to the linkers. In the nano structure, metallic nanoparticles may have an average particle diameter of about 0.5 to 3.0 nm. | 06-25-2015 |
20150179807 | NON-VOLATILE MEMORY DEVICE INCLUDING NANO FLOATING GATE AND METHOD FOR FABRICATING THE SAME - A non-volatile memory device includes a floating gate for charging and discharging of charges over a substrate. The floating gate comprises a linker layer formed over the substrate and including linkers to be bonded to metal ions and metallic nanoparticles formed out of the metal ions over the linker layer. | 06-25-2015 |
20150179808 | NON-VOLATILE MEMORY DEVICE INCLUDING FLEXIBLE NANO FLOATING GATE AND METHOD FOR FABRICATING THE SAME - A non-volatile memory device includes a floating gate for charging and discharging of charges over a flexible substrate. The floating gate includes a linker layer formed over the substrate and including a plurality of linkers to be bonded to a plurality of metal ions and a plurality of metallic nanoparticles formed out of the metal ions over the linker layer. | 06-25-2015 |
20150179819 | NON-VOLATILE MEMORY DEVICE INCLUDING CHARGE TRAPPING LAYER AND METHOD FOR FABRICATING THE SAME - A non-volatile memory device includes a charge trapping layer for trapping charges. The charge trapping layer includes a linker layer formed over a substrate and including linkers to be bonded to metal ions metallic nanoparticles formed out of the metal ions over the linker layer and a nitride filling gaps between the metallic nanoparticles. | 06-25-2015 |
20150179820 | NON-VOLATILE MEMORY DEVICE INCLUDING FLEXIBLE CHARGE TRAPPING LAYER AND METHOD FOR FABRICATING THE SAME - A non-volatile memory device includes a charge trapping layer for trapping charges over a flexible substrate. The charge trapping layer includes a linker layer formed over the flexible substrate and including linkers to be bonded to metal ions; metallic nanoparticles formed out of the metal ions over the linker layer; and a nitride filling gaps between the metallic nanoparticles. | 06-25-2015 |