Patent application number | Description | Published |
20090194313 | Coaxial cable - A coaxial cable includes a core, an insulating layer, a shielding layer, a sheathing layer. The core includes an amount of carbon nanotubes having at least one conductive coating disposed about the carbon nanotubes. The carbon nanotubes are orderly arranged. The insulating layer is about the core. The shielding layer is about the insulating layer. The sheathing layer is about the shielding layer. | 08-06-2009 |
20090196982 | Method for making coaxial cable - A method for making a coaxial cable, the method comprises the steps of: providing a carbon nanotube structure; and forming at least one conductive coating on a plurality of carbon nanotubes of the carbon nanotube structure; a carbon nanotube wire-like structure from the carbon nanotubes with at least one conductive coating; at least one layer of insulating material on the carbon nanotube wire-like structure; at least one layer of shielding material on the at least one layer of insulating material; and one layer of sheathing material on the at least one layer of shielding material. | 08-06-2009 |
20090196985 | Method for making individually coated and twisted carbon nanotube wire-like structure - A method for making an individually coated and twisted carbon nanotube wire-like structure, the method comprising the steps of: providing a carbon nanotube structure having a plurality of carbon nanotubes; forming at least one conductive coating on the plurality of carbon nanotubes in the carbon nanotube structure; and twisting the carbon nanotube structure. | 08-06-2009 |
20090197082 | Individually coated carbon nanotube wire-like structure related applications - A individually coated carbon nanotube wire-like structure includes an amount of carbon nanotubes and a conductive coating on an outside surface of the carbon nanotubes. The carbon nanotubes are joined end-to-end by van der Waals attractive force therebetween. | 08-06-2009 |
20150211980 | METHOD FOR IMAGING NANOSTRUCTURES WITH OPTICAL MICROSCOPY - A method for observing nanostructures by optical microscopy is provided. Firstly, a sample with a nanostructure and a vapor-condensation-assisted optical microscopy system are provided. The vapor-condensation-assisted optical microscopy system comprises a vapor-condensation-assisted device and an optical microscope comprising a stage. The vapor-condensation-assisted device is used to provide a vapor to sample on the stage in application. Secondly, locating the sample is located on the stage. Thirdly, a vapor is applied to the sample to observe the sample via the optical microscopy system. | 07-30-2015 |
20150211991 | OPTICAL MICROACOPY VAPOR-CONDENSATION-ASSISRED DEVICE - A optical microscopy vapor-condensation-assisted device comprises an air blowing device, a vapor producing device and a guide pipe connected with each other in seal. One end of the vapor producing device is connected to the air blowing device, another end of the vapor producing device is connected to the guide pipe. The vapor producing device produces vapor. The air blowing device blows air through the vapor producing device into the guide pipe. | 07-30-2015 |
20150212309 | VAPOR-CONDENSATION-ASSISRED OPTICAL MICROACOPY SYSTEM - A vapor-condensation-assisted optical microscopy system comprises a vapor-condensation-assisted device and an optical microscope. The vapor-condensation-assisted device comprises air blowing device, a vapor producing device and a guide pipe. The vapor producing device connects the air blowing device with the guide pipe. The optical microscope comprises an observing device, an image processing device, a support frame and a stage. The stage, the guide pipe of the vapor-condensation-assisted device, the observing device, and the image processing device are fixed on the support frame. The vapor-condensation-assisted device is configured to provide a vapor to sample on the stage in application. | 07-30-2015 |
20160061664 | METHOD FOR IMAGING 1-D NANOMATERIALS - A method for imaging one dimension nanomaterials is provided. Firstly, one dimension nanomaterials sample, an optical microscope with a liquid immersion objective and a liquid are provided. Secondly, the one dimensional nanomaterials sample is immersed in the liquid. Thirdly, the one dimensional nanomaterials sample is illuminated by an incident beam to generate resonance Rayleigh scattering. Forthly, the liquid immersion objective is immersed into the liquid to get a resonance Rayleigh scattering (RRS) image of the one dimensional nanomaterials sample. Fifthly, spectra of the one dimensional nanomaterials sample are measured to obtain chirality of the one dimensional nanomaterials sample. | 03-03-2016 |
20160061718 | METHOD AND DEVICE FOR CHIRALITY ASSIGNMENT OF CARBON NANOTUBE - A method for assigning chirality of carbon nanotube is provided. Firstly, carbon nanotube sample, an optical microscope with a liquid immersion objective and a liquid are provided. Secondly, the carbon nanotube sample is immersed in the liquid. Thirdly, the carbon nanotube sample is illuminated by an incident beam to generate resonance Rayleigh scattering. Forthly, the liquid immersion objective is immersed into the liquid to get a resonance Rayleigh scattering (RRS) image of the carbon nanotube sample. Fifthly, spectra of the carbon nanotube sample are measured to obtain chirality of the carbon nanotube sample. | 03-03-2016 |
20160061733 | METHOD AND DEVICE FOR CHIRALITY ASSIGNMENT OF CARBON NANOTUBES - A method for assigning chirality of carbon nanotube is provided. Firstly, carbon nanotube sample, an optical microscope with a liquid immersion objective and a liquid are provided. Secondly, the carbon nanotube sample is immersed in the liquid. Thirdly, the carbon nanotube sample is illuminated by an incident beam to generate resonance Rayleigh scattering. Forthly, the liquid immersion objective is immersed into the liquid to get a resonance Rayleigh scattering (RRS) image of the carbon nanotube sample. Fifthly, spectra of the carbon nanotube sample are measured to obtain chirality of the carbon nanotube sample. | 03-03-2016 |
20160061734 | METHOD AND DEVICE FOR IMAGING 1-D NANOMATERIALS - A method for imaging one dimension nanomaterials is provided. Firstly, one dimension nanomaterials sample, an optical microscope with a liquid immersion objective and a liquid are provided. Secondly, the one dimensional nanomaterials sample is immersed in the liquid. Thirdly, the one dimensional nanomaterials sample is illuminated by an incident beam to generate resonance Rayleigh scattering. Forthly, the liquid immersion objective is immersed into the liquid to get a resonance Rayleigh scattering (RRS) image of the one dimensional nanomaterials sample. Fifthly, spectra of the one dimensional nanomaterials sample are measured to obtain chirality of the one dimensional nanomaterials sample. | 03-03-2016 |