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    • 6. 发明申请
    • CONTINUOUS-RANGE HYDROGEN SENSORS
    • 连续传感器
    • WO2006091553A3
    • 2007-04-05
    • PCT/US2006006003
    • 2006-02-21
    • NANO PROPRIETARY INCMONTY GREGNG KWOKYANG MOHSHIFINK RICHARD L
    • MONTY GREGNG KWOKYANG MOHSHIFINK RICHARD L
    • G01N27/26G01N27/12G01N33/00
    • G01N27/127G01N33/005
    • The present invention provides for novel hydrogen sensors and methods for making same. In some embodiments, such novel hydrogen sensors are continuous-range hydrogen sensors comprising Pd-Ag nanoparticles arrayed as nanowires or two-dimensional shapes on a resistive surface. Such continuous-range hydrogen sensors are capable of measuring a wide range of hydrogen gas concentration over a wide temperature range. Unlike existing hydrogen sensors that experience a large change in resistance at a certain hydrogen concentration, the continuous-range hydrogen sensor of the present invention changes resistance continuously over a broad range of hydrogen concentration. This continuous change varies slowly with hydrogen concentration and is predictable such that the continuous-range hydrogen sensor can be used to measure hydrogen concentration continuously from a few ppm to 40,000 ppm level or higher over a broad range of temperatures (e.g., -40°C to +150°C).
    • 本发明提供新颖的氢传感器及其制造方法。 在一些实施方案中,这样的新型氢传感器是连续范围的氢传感器,其包括在电阻表面上排列为纳米线或二维形状的Pd-Ag纳米颗粒。 这种连续范围的氢传感器能够在宽的温度范围内测量宽范围的氢气浓度。 与现有氢传感器不同,在一定的氢浓度下,电阻的变化很大,本发明的连续范围氢传感器在宽范围的氢浓度下连续地改变电阻。 这种连续变化随氢气浓度而变化缓慢,并且是可预测的,使得连续范围氢传感器可用于在宽范围的温度(例如-40℃)下连续测量从几ppm到40,000ppm水平或更高的氢浓度 至+ 150℃)。
    • 8. 发明申请
    • CARBON NANOTUBES
    • 碳纳米管
    • WO2005079188A3
    • 2006-06-01
    • PCT/US2004029379
    • 2004-09-10
    • NANO PROPRIETARY INCMAO DONGSHENGFINK RICHARD LYANIV ZVI
    • MAO DONGSHENGFINK RICHARD LYANIV ZVI
    • D04H1/00C09J1/00C09J11/04
    • C09J1/00B82Y30/00C09J11/04Y10T428/249924
    • Carbon nanotubes can be self-aligned by making composites of carbon nanotube powders with particles and organic and/or inorganic carriers such as water or other solvents. After the mixture is applied onto a substrate by whatever ways, such as brushing, screen-printing, ink-jet printing, spraying, dispersing, spin-coating, dipping, and the like and combinations, a fragmentation process occurs when the composite material is dried or cured by certain ways to eliminate some or all of the carrier material. This results in microcracks forming between the fragments. CNT fibers that are bonded or set in the fragments on either side of a crack are aligned in the crack area, either by stretching the fibers or by allowing the fibers to spool out from one or both fragments.
    • 碳纳米管可以通过用碳纳米管粉末与有机和/或无机载体如水或其它溶剂的复合物进行自对准。 将混合物通过任何方式施加到基底上,例如刷涂,丝网印刷,喷墨印刷,喷涂,分散,旋涂,浸渍等及其组合时,当复合材料为 通过某些方式干燥或固化以消除部分或全部载体材料。 这导致碎片之间形成微裂纹。 通过拉伸纤维或通过使纤维从一个或两个片段卷绕出来,被粘合或设置在裂纹任一侧上的片段中的CNT纤维在裂纹区域中排列。