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    • 1. 发明授权
    • Four-terminal carbon nanotube capacitors
    • 四端碳纳米管电容器
    • US08350360B1
    • 2013-01-08
    • US12869539
    • 2010-08-26
    • Quoc X. Ngo
    • Quoc X. Ngo
    • H01L21/02
    • H01G4/228H01G4/005H01L28/40
    • A carbon nanotube (CNT) capacitor includes a CNT film and four terminals. The first terminal includes a first end electrode disposed at a first end of the CNT film. The second terminal includes a second end electrode disposed at a second end of the CNT film. The third terminal includes an upper electrode disposed above the CNT film. The fourth terminal includes a lower electrode disposed below the CNT film. A method of operating a CNT capacitor includes applying a first signal across the first and second terminals to switch a CNT film from a conductive state to a non-conductive state, and applying a second signal across the third and fourth terminals to store charge or to discharge charges in the CNT capacitor. A method of making a CNT capacitor includes providing four terminals and a CNT film.
    • 碳纳米管(CNT)电容器包括CNT膜和四个端子。 第一端子包括设置在CNT膜的第一端的第一端电极。 第二端子包括设置在CNT膜的第二端的第二端电极。 第三端子包括设置在CNT膜上方的上电极。 第四端子包括设置在CNT膜下方的下电极。 一种操作CNT电容器的方法包括:跨越第一和第二端子施加第一信号以将CNT膜从导通状态切换到非导通状态,以及在第三和第四端子上施加第二信号以存储电荷或 CNT电容器中的放电电荷。 制造CNT电容器的方法包括提供四个端子和CNT膜。
    • 2. 发明授权
    • Carbon nanotube (CNT) capacitors and devices integrated with CNT capacitors
    • 碳纳米管(CNT)电容器和与CNT电容集成的器件
    • US08405189B1
    • 2013-03-26
    • US12946834
    • 2010-11-15
    • Jonathan W. WardQuoc X. Ngo
    • Jonathan W. WardQuoc X. Ngo
    • H01L21/02
    • H01G4/33B82Y10/00H01G4/002H01G4/08H01L28/40H01L51/0048
    • An example of a carbon nanotube capacitor may include (i) a carbon nanotube film having carbon nanotubes and voids with dielectric material, (ii) conductive contacts and (iii) a dielectric layer. The carbon nanotube film may switch from a conductive state to a non-conductive state when a voltage is applied by creating an electrical break within the carbon nanotube film and providing a first conductive region and a second conductive region within the carbon nanotube film. The electrical break may separate the first conductive region from the second conductive region. The first and second conductive regions may store charge. An integrated device may include one or more transistors and one or more carbon nanotube capacitors. A method of making a carbon nanotube capacitor is also disclosed.
    • 碳纳米管电容器的实例可以包括(i)具有碳纳米管的碳纳米管膜和具有电介质材料的空隙,(ii)导电触点和(iii)电介质层。 当通过在碳纳米管膜内产生电断裂并且在碳纳米管膜内提供第一导电区域和第二导电区域施加电压时,碳纳米管膜可以从导电状态切换到非导通状态。 电断裂可以将第一导电区域与第二导电区域分离。 第一和第二导电区域可以存储电荷。 集成器件可以包括一个或多个晶体管和一个或多个碳纳米管电容器。 还公开了制造碳纳米管电容器的方法。