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    • 2. 发明授权
    • Electrical devices containing a carbon nanotube switching layer with a passivation layer disposed thereon and methods for production thereof
    • 包含其上设置有钝化层的碳纳米管切换层的电气装置及其制造方法
    • US08604459B1
    • 2013-12-10
    • US13491550
    • 2012-06-07
    • Jonathan W. WardGaro J. Derderian
    • Jonathan W. WardGaro J. Derderian
    • H01L29/06
    • H01L29/0673B82Y10/00H01L51/0048H01L51/0558H01L51/107
    • Electrical devices containing carbon nanotubes can be passivated to protect the carbon nanotubes from degradation while substantially preserving the carbon nanotubes' electrical conductivity and switching characteristics. Such electrical devices can include a first metal contact, a switching layer containing a plurality of carbon nanotubes disposed on the first metal contact, a passivation layer containing amorphous carbon, a metal carbide, or any combination thereof that is disposed on at least a top surface of the switching layer, and a second metal contact disposed upon the passivation layer. Methods for forming the electrical devices can include disposing a passivation layer containing amorphous carbon on at least a top surface of the switching layer, and optionally heating to at least partially convert the amorphous carbon within the passivation layer into a metal carbide.
    • 可以钝化包含碳纳米管的电子器件以保护碳纳米管免受降解,同时基本上保留碳纳米管的电导率和开关特性。 这样的电气装置可以包括第一金属触点,包含设置在第一金属触点上的多个碳纳米管的开关层,包含无定形碳的钝化层,金属碳化物或其任何组合,其设置在至少一个顶表面 以及设置在钝化层上的第二金属触点。 用于形成电气装置的方法可以包括在开关层的至少顶表面上设置含有无定形碳的钝化层,以及任选地加热至少部分地将钝化层内的无定形碳转化为金属碳化物。
    • 3. 发明授权
    • Method and system of using nanotube fabrics as joule heating elements for memories and other applications
    • 使用纳米管织物作为焦耳加热元件的方法和系统用于存储器和其他应用
    • US08525143B2
    • 2013-09-03
    • US12066053
    • 2006-09-06
    • Jonathan W. WardThomas RueckesMitchell MeinholdBrent M. Segal
    • Jonathan W. WardThomas RueckesMitchell MeinholdBrent M. Segal
    • H01L45/00
    • H01L45/1286B82Y10/00G11C13/0004G11C13/025G11C2213/81H01L27/2436H01L45/06H01L45/1226H01L45/1233H01L45/144
    • Methods and systems of using nanotube elements as joule heating elements for memories and other applications. Under one aspect, a method includes providing an electrical stimulus, regulated by a drive circuit, through a nanotube element in order to heat an adjacent article. Further, a detection circuit electrically gauges the state of the article. The article heated by the nanotube element is, in preferred embodiments, a phase changing material, hi memory applications, the invention may be used as a small-scale CRAM capable of employing small amounts of current to induce rapid, large temperature changes in a chalcogenide material. Under various embodiments of the disclosed invention, the nanotube element is composed of a non-woven nanotube fabric which is either suspended from supports and positioned adjacent to the phase change material or is disposed on a substrate and in direct contact with the phase change material. A plurality of designs using various geometric orientations of nanotube fabrics, phase change materials, and drive and detection circuitry is disclosed. Additionally, methods of fabricating nanotube heat emitters are disclosed.
    • 使用纳米管元件作为焦耳加热元件用于存储器和其他应用的方法和系统。 在一个方面,一种方法包括通过纳米管元件提供由驱动电路调节的电刺激,以加热邻近的物品。 此外,检测电路电测量物品的状态。 在优选实施例中,由纳米管元​​件加热的物品是相变材料。在记忆应用中,本发明可以用作能够使用少量电流以在硫族化物中快速,大的温度变化的小规模CRAM 材料。 在所公开的发明的各种实施例中,纳米管元件由无纺布纳米管织物组成,该无纺布纳米管织物从支撑物悬挂并且邻近相变材料定位,或者设置在基底上并与相变材料直接接触。 公开了使用纳米管织物,相变材料以及驱动和检测电路的各种几何取向的多个设计。 另外,公开了制造纳米管热发射体的方法。
    • 5. 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。
    • 6. 发明授权
    • Nanotube fabric-based sensor systems and methods of making same
    • 基于纳米管织物的传感器系统及其制造方法
    • US08366999B2
    • 2013-02-05
    • US12065857
    • 2006-09-06
    • Jonathan W. WardBrent M. Segal
    • Jonathan W. WardBrent M. Segal
    • G01N21/00H01L27/14
    • G01N21/65B82Y15/00
    • Under one aspect, a system (100) for sensing the presense of an analyte in a fluid includes a nanotube sensor element including a plurality of nanotubes and positioned for exposure to a fluid; an optical source capable of generating optical radiation (102), the radiation having a source frequency and a fluence selected to generate a nonlinear optical response by the nanotube sensor element; an optical detector (110) capable of measuring the nonlinear optical response by the nanotube sensor element; and logic in electrical communications with the optical detector to sense the presense of an analyte in the fluid based on the nonlinear optical response measured by the optical detector.
    • 在一个方面,用于感测流体中分析物的脱色的系统(100)包括纳米管传感器元件,其包括多个纳米管并定位成暴露于流体; 能够产生光辐射(102)的光源,所述辐射具有选择的源频率和能量密度,以通过纳米管传感器元件产生非线性光学响应; 能够测量纳米管传感器元件的非线性光学响应的​​光学检测器(110); 以及与光学检测器进行电通信的逻辑,以基于由光学检测器测量的非线性光学响应来感测流体中分析物的突出。
    • 8. 发明授权
    • Two-terminal nanotube devices including a nanotube bridge and methods of making same
    • 包括纳米管桥的两端纳米管装置及其制造方法
    • US08134220B2
    • 2012-03-13
    • US12139910
    • 2008-06-16
    • H. Montgomery ManningThomas RueckesJonathan W. WardBrent M. Segal
    • H. Montgomery ManningThomas RueckesJonathan W. WardBrent M. Segal
    • G11C11/00H01L23/52H01L21/02
    • H01L51/0591B82Y10/00G11C13/025H01L51/0048Y10S977/943
    • Nanotube switching devices having nanotube bridges are disclosed. Two-terminal nanotube switches include conductive terminals extending up from a substrate and defining a void in the substrate. Nantoube articles are suspended over the void or form a bottom surface of a void. The nanotube articles are arranged to permanently contact at least a portion of the conductive terminals. An electrical stimulus circuit in communication with the conductive terminals is used to generate and apply selected waveforms to induce a change in resistance of the device between relatively high and low resistance values. Relatively high and relatively low resistance values correspond to states of the device. A single conductive terminal and a interconnect line may be used. The nanotube article may comprise a patterned region of nanotube fabric, having an active region with a relatively high or relatively low resistance value. Methods of making each device are disclosed.
    • 公开了具有纳米管桥的纳米管开关器件。 两端纳米管开关包括从衬底向上延伸并且在衬底中限定空隙的导电端子。 纳米管制品悬浮在空隙上或形成空隙的底部表面。 纳米管制品布置成永久地接触导电端子的至少一部分。 使用与导电端子连通的电刺激电路来产生并施加所选择的波形以引起器件在较高和较低电阻值之间的电阻变化。 相对较高且相对较低的电阻值对应于器件的状态。 可以使用单个导电端子和互连线。 纳米管制品可以包括具有相对较高或相对低的电阻值的有源区的纳米管织物的图案化区域。 公开了制造每个装置的方法。