Patent application number | Description | Published |
20100113861 | METALLIC NANOPARTICLES WITH COATED SHELLS AND APPLICATIONS OF SAME - A process or method for treating cancer. In one embodiment, the method includes the steps of providing a plurality of metallic nanoparticles, wherein each of the plurality of metallic nanoparticles has a core formed with a first metallic material, and a shell formed with a non-metallic material containing carbon, and wherein the shell is formed to enclose the metallic core completely, introducing said metallic nanoparticles into a mammal such that said metallic nanoparticles selectively target at least one type of cancerous cell, and subsequently applying at least one radio frequency of electromagnetic waves to said mammal for a period of time effective to induce skin currents in the cores of the first metallic material of said metallic nanoparticles to cause heat generated locally around targeted at least one type of cancerous cell to kill said cancerous cell. | 05-06-2010 |
20130064863 | MULTICOMPONENT AND BIOCOMPATIBLE NANOCOMPOSITE MATERIALS, METHODS OF SYNTHESIZING SAME AND APPLICATIONS OF SAME - One aspect of the present invention relates to a method of synthesizing a multicomponent and biocompatible nanocomposite material, which includes: synthesizing a gold/hydroxyapatite (Au/HA) catalyst; distributing the Au/HA catalyst into a thin film; and heating the thin film in a reactor with a carbon source gas to perform radio frequency chemical vapor deposition (RF-CVD) to form the nanocomposite material, where the nanocomposite material includes a graphene structure and Au/HA nanoparticles formed by the Au/HA catalyst and distributed within the graphene structure. In another aspect, a multicomponent and biocompatible nanocomposite material includes: a graphene structure formed with a plurality of graphene layers and Au/HA nanoparticles distributed within the graphene structure. The nanocomposite material is formed by heating an Au/HA catalyst thin film with a carbon source gas to perform radio frequency chemical vapor deposition (RF-CVD). | 03-14-2013 |
20130136696 | METALLIC NANOPARTICLES WITH COATED SHELLS AND APPLICATIONS OF SAME - A process or method for treating cancer. In one embodiment, the method includes the steps of providing a plurality of metallic nanoparticles, wherein each of the plurality of metallic nanoparticles has a core formed with a first metallic material, and a shell formed with a non-metallic material containing carbon, and wherein the shell is formed to enclose the metallic core completely, introducing said metallic nanoparticles into a mammal such that said metallic nanoparticles selectively target at least one type of cancerous cell, and subsequently applying at least one radio frequency of electromagnetic waves to said mammal for a period of time effective to induce skin currents in the cores of the first metallic material of said metallic nanoparticles to cause heat generated locally around targeted at least one type of cancerous cell to kill said cancerous cell. | 05-30-2013 |
20140248319 | MULTICOMPONENT AND BIOCOMPATIBLE NANOCOMPOSITE MATERIALS, METHODS OF SYNTHESIZING SAME AND APPLICATIONS OF SAME - One aspect of the present invention relates to a method of synthesizing a multicomponent and biocompatible nanocomposite material, which includes: synthesizing a gold/hydroxyapatite (Au/HA) catalyst; distributing the Au/HA catalyst into a thin film; and heating the thin film in a reactor with a carbon source gas to perform radio frequency chemical vapor deposition (RF-CVD) to form the nanocomposite material, where the nanocomposite material includes a graphene structure and Au/HA nanoparticles formed by the Au/HA catalyst and distributed within the graphene structure. In another aspect, a multicomponent and biocompatible nanocomposite material includes: a graphene structure formed with a plurality of graphene layers and Au/HA nanoparticles distributed within the graphene structure. The nanocomposite material is formed by heating an Au/HA catalyst thin film with a carbon source gas to perform radio frequency chemical vapor deposition (RF-CVD). | 09-04-2014 |
Patent application number | Description | Published |
20080223851 | APPARATUS AND METHODS FOR SYNTHESIS OF LARGE SIZE BATCHES OF CARBON NANOSTRUCTURES - An apparatus and method for synthesizing nanostructures. In one embodiment, the apparatus includes a reactor having a reaction zone and a conductive susceptor positioned in the reaction zone. The method includes the steps of transporting a gas mixture having an aerosolized catalyst, a feedstock and a carrier gas into the reaction zone of the reactor, inductively heating the reaction zone, and regulating a flow rate of the gas mixture to allow the catalyst to spend a sufficient amount of time in the reaction zone for the growth of nanostructures. | 09-18-2008 |
20080264330 | Production of nanostructure by curie point induction heating - An apparatus for synthesizing nanostructures. In one embodiment, the apparatus includes a heating device that defines a reaction zone therein and a susceptor made of a ferromagnetic material with a Curie temperature and placed in the reaction zone, where the Curie temperature substantially corresponds to a temperature at which the growth of desired nanostructures occurs and the heating device is capable of heating the susceptor substantially at the Curie temperature. | 10-30-2008 |
20080274280 | Apparatus and methods for synthesis of large size batches of carbon nanostructures - An apparatus and method for synthesizing nanostructures. In one embodiment, the apparatus includes a reactor having a reaction zone and a conductive susceptor positioned in the reaction zone. The method includes the steps of transporting a gas mixture having an aerosolized catalyst, a feedstock and a carrier gas into the reaction zone of the reactor, inductively heating the reaction zone, and regulating a flow rate of the gas mixture to allow the catalyst to spend a sufficient amount of time in the reaction zone for the growth of nanostructures. | 11-06-2008 |
Patent application number | Description | Published |
20080223851 | APPARATUS AND METHODS FOR SYNTHESIS OF LARGE SIZE BATCHES OF CARBON NANOSTRUCTURES - An apparatus and method for synthesizing nanostructures. In one embodiment, the apparatus includes a reactor having a reaction zone and a conductive susceptor positioned in the reaction zone. The method includes the steps of transporting a gas mixture having an aerosolized catalyst, a feedstock and a carrier gas into the reaction zone of the reactor, inductively heating the reaction zone, and regulating a flow rate of the gas mixture to allow the catalyst to spend a sufficient amount of time in the reaction zone for the growth of nanostructures. | 09-18-2008 |
20080264330 | Production of nanostructure by curie point induction heating - An apparatus for synthesizing nanostructures. In one embodiment, the apparatus includes a heating device that defines a reaction zone therein and a susceptor made of a ferromagnetic material with a Curie temperature and placed in the reaction zone, where the Curie temperature substantially corresponds to a temperature at which the growth of desired nanostructures occurs and the heating device is capable of heating the susceptor substantially at the Curie temperature. | 10-30-2008 |
20080274280 | Apparatus and methods for synthesis of large size batches of carbon nanostructures - An apparatus and method for synthesizing nanostructures. In one embodiment, the apparatus includes a reactor having a reaction zone and a conductive susceptor positioned in the reaction zone. The method includes the steps of transporting a gas mixture having an aerosolized catalyst, a feedstock and a carrier gas into the reaction zone of the reactor, inductively heating the reaction zone, and regulating a flow rate of the gas mixture to allow the catalyst to spend a sufficient amount of time in the reaction zone for the growth of nanostructures. | 11-06-2008 |