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    • 5. 发明申请
    • CHEMICAL VAPOR DEPOSITION GRAPHENE FOAM ELECTRODES FOR PSEUDO-CAPACITORS
    • 化学蒸气沉积石墨电极用于PSEUDO-CAPACITORS
    • WO2012144993A1
    • 2012-10-26
    • PCT/US2011/033162
    • 2011-04-20
    • EMPIRE TECHNOLOGY DEVELOPMENT, LLCYAGER, Thomas, A.
    • YAGER, Thomas, A.
    • H01G9/052
    • H01G11/36B82Y30/00B82Y40/00C01B32/186C01P2004/30C01P2006/12H01G11/24H01G11/46H01G11/86Y02E60/13
    • Technologies are generally described for a porous graphene electrode material is described herein that may incorporate a three-dimensional open-cell graphene structure fabricated via chemical vapor deposition onto a metal foam. After the graphene is deposited, the metal foam may be dissolved, leaving a three-dimensional open-cell graphene structure that may include single or few layer graphene. Pseudo-capacitive materials, such as Ru02, Fe304, or Mn02, may be deposited within the pores of the a three-dimensional open-cell graphene structure to form the porous graphene electrode material. The porous graphene electrode material may have a specific capacitance comparable to chemically modified graphene (CMG) electrodes. The porous graphene electrode material may also have a conductivity greater than CMG electrodes of equivalent surface area. Use of the porous graphene electrode material in capacitors may result in siginificant improvements in specific power compared to CMG based capacitors.
    • 一般描述了一种多孔石墨烯电极材料的技术,这里描述了可以将通过化学气相沉积制造的三维开孔石墨烯结构结合到金属泡沫上。 在沉积石墨烯之后,可以溶解金属泡沫,留下可以包括单层或几层石墨烯的三维开孔石墨烯结构。 诸如RuO 2,Fe 3 O 3或MnO 2的假电容性材料可以沉积在三维开孔细胞石墨烯结构的孔内,以形成多孔石墨烯电极材料。 多孔石墨烯电极材料可以具有与化学改性石墨烯(CMG)电极相当的比电容。 多孔石墨烯电极材料也可以具有大于等效表面积的CMG电极的导电率。 与基于CMG的电容器相比,在电容器中使用多孔石墨烯电极材料可能导致比功率的显着改善。
    • 7. 发明申请
    • EDDY CURRENT INDUCED HYPERTHERMIA USING CONDUCTIVE PARTICLES
    • 使用导电颗粒的EDDY电流诱导的高血压
    • WO2011112362A2
    • 2011-09-15
    • PCT/US2011/026022
    • 2011-02-24
    • EMPIRE TECHNOLOGY DEVELOPMENT, LLC.YAGER, Thomas, A.
    • YAGER, Thomas, A.
    • A61N2/00
    • A61N1/406
    • Technologies are generally described for hyperthermia based treatment of diseased tissues using conductive particles. Conductive particles of known composition and size distribution may be implanted in diseased tissue and exposed to an alternating magnetic field, which may be tuned to the size of the metal particles to induce eddy currents producing heat in the implanted particles. As the temperature of the metal particles increases, their resistance also increases due to their positive temperature coefficient of resistivity. An antenna placed externally to the body near metal particles may be part of a tuned RF circuit and scanned for resonance. The change either in resonance frequency or circuit impedance may provide tuned feedback, which may be used to control the hyperthermia treatment.
    • 技术通常描述为使用导电颗粒进行基于热疗的患病组织的治疗。 已知组成和尺寸分布的导电颗粒可以植入病变组织中并暴露于交变磁场,该交变磁场可调整到金属颗粒的尺寸以诱导在植入的颗粒中产生热的涡流。 随着金属颗粒的温度升高,它们的电阻也由于其电阻率的正温度系数而增加。 在金属颗粒附近放置在身体外部的天线可能是被调谐的RF电路的一部分,并被扫描以进行谐振。 谐振频率或电路阻抗的变化可能提供调谐反馈,可用于控制热疗治疗。
    • 10. 发明申请
    • EDDY CURRENT INDUCED HYPERTHERMIA USING CONDUCTIVE PARTICLES
    • 使用导电颗粒的EDDY电流诱导的高血压
    • WO2011112362A3
    • 2016-04-07
    • PCT/US2011026022
    • 2011-02-24
    • EMPIRE TECHNOLOGY DEV LLCYAGER THOMAS A
    • YAGER THOMAS A
    • A61N2/00A61B18/18
    • A61N1/406
    • Technologies are generally described for hyperthermia based treatment of diseased tissues using conductive particles. Conductive particles of known composition and size distribution may be implanted in diseased tissue and exposed to an alternating magnetic field, which may be tuned to the size of the metal particles to induce eddy currents producing heat in the implanted particles. As the temperature of the metal particles increases, their resistance also increases due to their positive temperature coefficient of resistivity. An antenna placed externally to the body near metal particles may be part of a tuned RF circuit and scanned for resonance. The change either in resonance frequency or circuit impedance may provide tuned feedback, which may be used to control the hyperthermia treatment.
    • 技术通常描述为使用导电颗粒进行基于热疗的患病组织治疗。 已知组成和尺寸分布的导电颗粒可以植入病变组织中并暴露于交变磁场,该交变磁场可调整到金属颗粒的尺寸以诱导在植入的颗粒中产生热的涡流。 随着金属颗粒的温度升高,它们的电阻也由于其正电温度系数而增加。 放置在金属颗粒附近的身体外部的天线可能是被调谐的RF电路的一部分,并被扫描以进行谐振。 谐振频率或电路阻抗的改变可以提供调节反馈,其可以用于控制热疗治疗。