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    • 7. 发明授权
    • Method of making a piezoelectric microactuator for precise head positioning
    • 制造用于精确头部定位的压电微致动器的方法
    • US06289564B1
    • 2001-09-18
    • US09345265
    • 1999-06-30
    • Vlad Joseph Novotny
    • Vlad Joseph Novotny
    • H01L4100
    • G11B5/5552G11B5/5556H01L41/081H01L41/094H01L41/314Y10T29/42Y10T29/49025Y10T29/49041Y10T29/49812
    • A slider assembly for selectively altering a position of a transducing head with respect to a track of a rotatable disc having a plurality of concentric tracks includes a slider body having a main portion and a head portion separated by a gap. The head portion carries the transducing head. The slider body is arranged to be supported by a support structure over a surface of the rotatable disc. A pair of structural elements are disposed on opposite side surfaces of the slider body between the main portion and the head portion across the gap. At least one of the structural elements is a microactuator responsive to electrical control signals to selectively bend to alter the position of the head portion with respect to the main portion of the slider body. The structural elements may be complementary microactuators. The microactuators may be formed by a process involving forming the microactuators on a slider substrate or on a row of sliders, forming the microactuators on a slider stack, or separately forming the microactuators and attaching the microactuators to a slider stack.
    • 用于选择性地改变换能头相对于具有多个同心轨道的可旋转盘的轨道的位置的滑块组件包括具有主要部分和由间隙分开的头部的滑块体。 头部承载换能头。 滑块主体被布置成由可旋转盘的表面上的支撑结构支撑。 一对结构元件设置在跨越间隙的主体部分和头部之间的滑块体的相对侧表面上。 结构元件中的至少一个是响应于电控制信号的微致动器,其选择性地弯曲以改变头部相对于滑块体的主要部分的位置。 结构元件可以是互补微致动器。 微致动器可以通过包括在滑动器基板或一排滑块上形成微致动器的方法形成,在滑块上形成微致动器,或者单独地形成微致动器并将微致动器附接到滑块。
    • 9. 发明授权
    • Chemical and biomedical NanoSensors
    • 化学和生物医学纳米传感器
    • US09140667B2
    • 2015-09-22
    • US13209442
    • 2011-08-15
    • Vlad Joseph Novotny
    • Vlad Joseph Novotny
    • G01N29/036G01N29/02B82Y15/00
    • G01N29/2437B82Y15/00G01N29/022G01N2291/014G01N2291/02416G01N2291/02466G01N2291/0255G01N2291/0256G01N2291/0257
    • The electrostatic sensors of bridge or cantilever type with multiple electrodes, the electrostatic sensors of comb type and piezoelectric sensors are used for the single molecule detection of ligands. The electrical driving of sensors is separated in some cases from the sensing for increased sensitivity. The large arrays of sensors with individual or common sensing circuits are employed to further improve detection sensitivity. The fabrication of the sensors, their functionalization for detection of many chemical and biological species and electrical circuitry, packaging, microfluidic subsystem and the system architecture are also disclosed. The individual, specific sensing of single species or simultaneous detection of multiple species is realized. The freeze drying or critical point drying after exposure of sensors to ligands present in liquids and detection in reduced pressure or vacuum is employed for increased sensitivity, down to the single molecule.
    • 具有多个电极的桥式或悬臂式静电传感器,梳型静电传感器和压电传感器用于配体的单分子检测。 传感器的电驱动在某些情况下与传感器分离以提高灵敏度。 使用具有单独或公共感测电路的大型传感器阵列来进一步提高检测灵敏度。 还公开了传感器的制造,其用于检测许多化学和生物物种以及电路,封装,微流体子系统和系统架构的功能化。 实现单个物种的个体特异性感测或多种物种的同时检测。 将传感器暴露于存在于液体中的配体和在减压或真空中检测的冷冻干燥或临界点干燥被用于提高灵敏度,直到单个分子。