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    • 6. 发明申请
    • System and method for implementing a high-sensitivity sensor with improved stability
    • 用于实现稳定性提高的高灵敏度传感器的系统和方法
    • US20060188934A1
    • 2006-08-24
    • US11062707
    • 2005-02-22
    • Ying-Lan ChangMichael Tan
    • Ying-Lan ChangMichael Tan
    • G01N33/53C12M1/34
    • B81B3/0032B81B2201/0292G01N27/127G01N27/4146
    • A high-sensitivity sensor with improved stability includes nanostructure-based sensors that are arranged such that a first nanostructure-based sensor (“shielded sensor”) is shielded from potential exposure to an environmental factor of interest and a second nanostructure-based sensor (“exposed sensor”) is allowed potential exposure to an environmental factor of interest. Further, all of the nanostructure-based sensors are arranged to allow common exposure to environmental factors not of interest. Thus, relative changes in properties, such as electrical resistance, of the shielded nanostructure-based sensor versus changes in properties of the exposed nanostructure-based sensor are used for detecting an environmental factor of interest.
    • 具有改进的稳定性的高灵敏度传感器包括基于纳米结构的传感器,其布置成使得基于纳米结构的第一传感器(“屏蔽传感器”)被屏蔽以免受潜在的暴露于感兴趣的环境因素和基于第二纳米结构的传感器(“ 暴露的传感器“)被允许潜在地暴露于感兴趣的环境因素。 此外,所有基于纳米结构的传感器被布置成允许常见的暴露于不感兴趣的环境因素。 因此,使用基于屏蔽的纳米结构的传感器的性质(例如电阻)与暴露的基于纳米结构的传感器的性质的变化的相对变化用于检测感兴趣的环境因素。
    • 10. 发明申请
    • LIQUID-DRIVEN NANO-POROUS ACTUATOR AND THE APPLICATION THEREOF
    • 液体驱动的纳米多孔激光器及其应用
    • US20150361997A1
    • 2015-12-17
    • US14764824
    • 2014-09-26
    • INSTITUTE OF METAL RESEARCH CHINESE ACADEMY OF SCIENCES
    • Xinglong YELingzhi LIUHaijun JIN
    • F15B15/08
    • F15B15/08B81B3/0032B81B2201/038Y10T29/49828
    • The present invention discloses a liquid-driven nano-porous actuator and the application thereof, and belongs to the field of nano material actuators. According to the present invention, by changing the content of the liquid in the nano-porous material, the interface between the surface liquid of the nano-porous material and air is exchanged between flat and curved states, so as to change the compressive stress acting on the nano-porous material from the surface tension of the liquid and change the elastic deformation of the nano-porous material, thus driving the nano-porous material to contract and expand in a reversible manner and further realizing driving performance. The actuator features simple and easy implementation and environmental-friendly effect without the need of external physical excitation signals (light, magnetic field, electricity or heat), complicated external excitation process, conversion of electric, magnetic, and light energy, chemical or electrochemical process, or toxic, harmful or corrosive chemical substances, and it is especially suitable for bio-robot, medical and aerospace fields.
    • 本发明公开了一种液体驱动的纳米多孔致动器及其应用,属于纳米材料致动器领域。 根据本发明,通过改变纳米多孔材料中的液体的含量,纳米多孔材料的表面液体与空气之间的界面在平坦和弯曲状态之间被交换,以便改变作用的压应力 在纳米多孔材料上由液体的表面张力改变纳米多孔材料的弹性变形,从而驱动纳米多孔材料以可逆方式收缩膨胀,进一步实现驱动性能。 执行器具有简单实施和环保效果,无需外部物理激励信号(光,磁场,电或热),复杂的外部激励过程,电,磁和光能的转换,化学或电化学过程 ,或有毒,有害或腐蚀性化学物质,特别适用于生物机器人,医疗和航空航天领域。