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    • 1. 发明授权
    • Carbon nanotube array and method for forming same
    • 碳纳米管阵列及其形成方法
    • US07754182B2
    • 2010-07-13
    • US10334547
    • 2002-12-31
    • KaiLi JiangShouShan FanQunQing Li
    • KaiLi JiangShouShan FanQunQing Li
    • D01F9/12
    • C23C16/0281B82Y30/00C23C16/26C30B25/00C30B29/02C30B29/605H01L23/373H01L2924/0002Y10S977/843Y10T428/30H01L2924/00
    • A method for forming a carbon nanotube array includes the following steps: providing a smooth substrate (11); depositing a metal catalyst layer (21) on a surface of the substrate; heating the treated substrate to a predetermined temperature in flowing protective gas; and introducing a mixture of carbon source gas and protective gas for 5-30 minutes, thus forming a carbon nanotube array (61) extending from the substrate. When the mixture of carbon source gas and protective gas is introduced, a temperature differential greater than 50° C. between the catalyst and its surrounding environment is created by adjusting a flow rate of the carbon source gas. Further, a partial pressure of the carbon source gas is maintained lower than 20%, by adjusting a ratio of the flow rates of the carbon source gas and the protective gas. The carbon nanotubes formed in the carbon nanotube array are well bundled.
    • 形成碳纳米管阵列的方法包括以下步骤:提供光滑的基底(11); 在所述基板的表面上沉积金属催化剂层(21); 在流动的保护气体中将经处理的基板加热至预定温度; 并引入碳源气体和保护气体的混合物5-30分钟,从而形成从衬底延伸的碳纳米管阵列(61)。 当引入碳源气体和保护气体的混合物时,通过调节碳源气体的流量来产生催化剂及其周围环境之间大于50℃的温差。 此外,通过调节碳源气体和保护气体的流量比,将碳源气体的分压维持在低于20%。 形成在碳纳米管阵列中的碳纳米管很好地捆扎。
    • 2. 发明授权
    • Optical polarized light source device and method of making same
    • 光偏振光源装置及其制造方法
    • US06956698B2
    • 2005-10-18
    • US10684029
    • 2003-10-09
    • Peng LiKaiLi JiangQunQing LiShouShan Fan
    • Peng LiKaiLi JiangQunQing LiShouShan Fan
    • B01J23/40G02B5/30G02B26/00G02B27/28G02F1/03H01K1/06H01K1/08H01K3/00H01K3/02
    • B82Y20/00H01K1/06H01K3/02Y10S977/95
    • The present invention provides fan optical polarized light source device. The polarized light source device includes at least one carbon nanotube bundle (204) and two gold electrodes (206) respectively connected to ends of the bundle. The bundle has a length of approximately 600 microns, and includes a number of carbon nanotubes bundled together and substantially parallel to each other. Each electrode includes at least one gold wire, which is bonded to an inside of an end of the bundle by an ultrasonic wire bonder. When the polarized light source device is connected to an electrical source, a polarized incandescent light beam emits from the bundle of the polarized light source device. A direction of polarization of the light beam is parallel to an axis of the bundle. The present invention further provides a method of fabricating the polarized light source device.
    • 本发明提供了一种风扇光偏振光源装置。 偏振光源装置包括分别连接到束的端部的至少一个碳纳米管束(204)和两个金电极(206)。 束具有大约600微米的长度,并且包括捆绑在一起并且基本上彼此平行的多个碳纳米管。 每个电极包括至少一根金线,其通过超声波引线接合器结合到束的端部的内部。 当偏振光源装置连接到电源时,偏振白炽光束从偏振光源装置的束发射。 光束的偏振方向平行于束的轴线。 本发明还提供一种制造偏振光源装置的方法。