公开(公告)号：US07619291B2

公开(公告)日：2009-11-17

申请号：US11999228

申请日：2007-12-04

申请人： Venkatachalam C. Jaiprakash ,  Jonathan W. Ward ,  Thomas Rueckes ,  Brent M. Segal

发明人： Venkatachalam C. Jaiprakash ,  Jonathan W. Ward ,  Thomas Rueckes ,  Brent M. Segal

IPC分类号： H01L29/84

CPC分类号： G11C13/025 ,  B81B2203/0338 ,  B81B2203/04 ,  B81C1/00142 ,  B81C2201/0109 ,  B82Y10/00 ,  B82Y30/00 ,  B82Y40/00 ,  C01B32/162 ,  C01B2202/02 ,  C01B2202/22 ,  G11C11/56 ,  G11C23/00 ,  G11C2213/16 ,  G11C2213/77 ,  G11C2213/81 ,  H01H1/0094 ,  H01L21/76838 ,  H01L51/0048 ,  H01L2221/1094 ,  Y10S977/724 ,  Y10S977/734 ,  Y10S977/742

摘要： New devices having horizontally-disposed nanofabric articles and methods of making same are described. A discrete electro-mechanical device includes a structure having an electrically-conductive trace. A defined patch of nanotube fabric is disposed in spaced relation to the trace; and the defined patch of nanotube fabric is electromechanically deflectable between a first and second state. In the first state, the nanotube article is in spaced relation relative to the trace, and in the second state the nanotube article is in contact with the trace. A low resistance signal path is in electrical communication with the defined patch of nanofabric. Under certain embodiments, the structure includes a defined gap into which the electrically conductive trace is disposed. The defined gap has a defined width, and the defined patch of nanotube fabric spans the gap and has a longitudinal extent that is slightly longer than the defined width of the gap.

摘要翻译： 描述了具有水平布置的纳米制品的新器件及其制造方法。 分立的机电装置包括具有导电迹线的结构。 定义的纳米管织物贴片与痕迹间隔开设置; 并且所述限定的纳米管织物片在第一和第二状态之间是机电偏转的。 在第一状态下，纳米管制品相对于迹线具有间隔的关系，并且在第二状态下，纳米管制品与痕迹接触。 低电阻信号路径与所定义的纳米片段电连通。 在某些实施例中，该结构包括限定的导电迹线设置的间隙。 限定的间隙具有限定的宽度，并且限定的纳米管织物片段跨过间隙并且具有比限定的间隙宽度稍长的纵向范围。

公开(公告)号：US07556746B2

公开(公告)日：2009-07-07

申请号：US10860331

申请日：2004-06-03

申请人： Rahul Sen ,  Ramesh Sivarajan ,  Thomas Rueckes ,  Brent M. Segal

发明人： Rahul Sen ,  Ramesh Sivarajan ,  Thomas Rueckes ,  Brent M. Segal

IPC分类号： H01B1/04

CPC分类号： B82Y40/00 ,  B82Y10/00 ,  B82Y30/00 ,  C01B32/168 ,  C01B32/17 ,  C01B2202/02 ,  H01L51/0007 ,  H01L51/0048 ,  Y10S977/845 ,  Y10S977/847

摘要： Certain spin-coatable liquids and application techniques are described, which can be used to form nanotube films or fabrics of controlled properties. A method of making an applicator liquid containing nanotubes for use in an electronics fabrication process includes characterizing an electronic fabrication process according to fabrication compatible solvents and allowable levels of metallic and particle impurities; providing nanotubes that satisfy the allowable impurities criteria for the electronics fabrication process; providing a solvent that meets the fabrication compatible solvents and allowable impurities criteria for the electronic fabrication process; and dispersing the nanotubes into the solvent at a concentration of at least one milligram of nanotubes per liter solvent to form an applicator liquid.

摘要翻译： 描述了一些可旋涂的液体和应用技术，其可以用于形成纳米管膜或受控特性的织物。 制造用于电子制造工艺的包含纳米管的涂布器液体的方法包括根据制造相容的溶剂和允许的金属和颗粒杂质水平表征电子制造工艺; 提供满足电子制造工艺允许杂质标准的纳米管; 提供满足电子制造工艺制造相容溶剂和允许杂质标准的溶剂; 并以每升溶剂至少1毫克纳米管的浓度将纳米管分散到溶剂中以形成涂布液。

公开(公告)号：US20090115305A1

公开(公告)日：2009-05-07

申请号：US12124475

申请日：2008-05-21

申请人： Brent M. Segal ,  Jonathan W. Ward ,  Thomas Rueckes

发明人： Brent M. Segal ,  Jonathan W. Ward ,  Thomas Rueckes

IPC分类号： H01J21/10 ,  H01J9/385

CPC分类号： H01J21/10 ,  H01J3/021 ,  H01J19/38 ,  H01J2203/0232 ,  Y10S977/742

摘要： Vacuum microelectronic devices with carbon nanotube films, layers, ribbons and fabrics are provided. The present invention discloses microelectronic vacuum devices including triode structures that include three-terminals (an emitter, a grid and an anode), and also higher-order devices such as tetrodes and pentodes, all of which use carbon nanotubes to form various components of the devices. In certain embodiments, patterned portions of nanotube fabric may be used as grid/gate components, conductive traces, etc. Nanotube fabrics may be suspended or conformally disposed. In certain embodiments, methods for stiffening a nanotube fabric layer are used. Various methods for applying, selectively removing (e.g. etching), suspending, and stiffening vertically- and horizontally-disposed nanotube fabrics are disclosed, as are CMOS-compatible fabrication methods. In certain embodiments, nanotube fabric triodes provide high-speed, small-scale, low-power devices that can be employed in radiation-intensive applications.

摘要翻译： 提供具有碳纳米管膜，层，带和织物的真空微电子器件。 本发明公开了包括三端（发射极，栅极和阳极）的三极管结构的微电子真空装置，以及诸如四极和五极管的高阶器件，所有这些都使用碳纳米管来形成 设备。 在某些实施例中，纳米管织物的图案化部分可以用作栅极/栅极部件，导电迹线等。纳米管织物可以悬挂或保形地设置。 在某些实施例中，使用用于加强纳米管织物层的方法。 公开了用于施加，选择性地去除（例如蚀刻）悬浮和加强垂直和水平布置的纳米管织物的各种方法，以及CMOS兼容的制造方法。 在某些实施例中，纳米管织物三极管提供可用于辐射密集型应用中的高速，小规模，低功率的器件。

公开(公告)号：US07521736B2

公开(公告)日：2009-04-21

申请号：US11454216

申请日：2006-06-15

申请人： Thomas Rueckes ,  Brent M. Segal ,  Claude L. Bertin

发明人： Thomas Rueckes ,  Brent M. Segal ,  Claude L. Bertin

IPC分类号： H01L29/00

CPC分类号： G11C11/56 ,  B82Y10/00 ,  G11C13/025 ,  G11C23/00 ,  G11C2213/77 ,  H01H1/0094 ,  Y10S977/742 ,  Y10S977/932 ,  Y10S977/936 ,  Y10S977/943

摘要： Three-trace electromechanical devices and methods of using same are described. The device of the present invention includes first and second electrically conductive elements with a nanotube ribbon (or other electromechanical elements) disposed therebetween. The nanotube ribbon is capable of maintaining its position after removing an electrical stimulus applied to at least one of the first and second electrically conductive elements. Such devices may be formed into arrays of cells. One of the conductive elements may be used to create an attractive force to cause the nanotube ribbon to contact a conductive element, and the other conductive element may be used to create an attractive force to pull the nanotube ribbon from contact with the contacted conductive element. The electrically conductive traces may be aligned or unaligned with one another.

摘要翻译： 描述了三轨机电装置及其使用方法。 本发明的器件包括第一和第二导电元件，其间设置有纳米管带（或其他机电元件）。 在除去施加到第一和第二导电元件中的至少一个的电刺激之后，纳米管带能够保持其位置。 这样的器件可以形成为单元阵列。 可以使用导电元件之一来产生引导纳米管带与导电元件接触的吸引力，并且另一个导电元件可用于产生吸引力以将纳米管带拉离与接触的导电元件接触。 导电迹线可以彼此对准或不对准。

公开(公告)号：US20090045473A1

公开(公告)日：2009-02-19

申请号：US11999228

申请日：2007-12-04

申请人： Venkatachalam C. Jaiprakash ,  Jonathan W. Ward ,  Thomas Rueckes ,  Brent M. Segal

发明人： Venkatachalam C. Jaiprakash ,  Jonathan W. Ward ,  Thomas Rueckes ,  Brent M. Segal

IPC分类号： H01L29/84

CPC分类号： G11C13/025 ,  B81B2203/0338 ,  B81B2203/04 ,  B81C1/00142 ,  B81C2201/0109 ,  B82Y10/00 ,  B82Y30/00 ,  B82Y40/00 ,  C01B32/162 ,  C01B2202/02 ,  C01B2202/22 ,  G11C11/56 ,  G11C23/00 ,  G11C2213/16 ,  G11C2213/77 ,  G11C2213/81 ,  H01H1/0094 ,  H01L21/76838 ,  H01L51/0048 ,  H01L2221/1094 ,  Y10S977/724 ,  Y10S977/734 ,  Y10S977/742

摘要： New devices having horizontally-disposed nanofabric articles and methods of making same are described. A discrete electro-mechanical device includes a structure having an electrically-conductive trace. A defined patch of nanotube fabric is disposed in spaced relation to the trace; and the defined patch of nanotube fabric is electromechanically deflectable between a first and second state. In the first state, the nanotube article is in spaced relation relative to the trace, and in the second state the nanotube article is in contact with the trace. A low resistance signal path is in electrical communication with the defined patch of nanofabric. Under certain embodiments, the structure includes a defined gap into which the electrically conductive trace is disposed. The defined gap has a defined width, and the defined patch of nanotube fabric spans the gap and has a longitudinal extent that is slightly longer than the defined width of the gap.

公开(公告)号：US20080238882A1

公开(公告)日：2008-10-02

申请号：US12034158

申请日：2008-02-20

申请人： RAMESH SIVARAJAN ,  Michel Monteiro ,  Thomas Rueckes ,  Brent M. Segal

发明人： RAMESH SIVARAJAN ,  Michel Monteiro ,  Thomas Rueckes ,  Brent M. Segal

IPC分类号： G06F3/041

CPC分类号： G06F3/045

摘要： A symmetric touch screen switch system in which both the touch side and panelside transparent electrodes are comprised of carbon nanotube thin films is provided. The fabrication of various carbon nanotube enabled components and the assembly of a working prototype touch switch using those components is described. Various embodiments provide for a larger range of resistance and optical transparency for the both the electrodes, higher flexibility due to the excellent mechanical properties of carbon nanotubes. Certain embodiments of the symmetric, CNT-CNT touch switch achieve excellent optical transparency (

摘要翻译： 提供了一种对称触摸屏开关系统，其中触摸侧和面板透明电极都由碳纳米管薄膜组成。 描述了使用这些部件的各种碳纳米管使能部件的制造和工作原型触摸开关的组装。 各种实施例提供了两种电极的较大范围的电阻和光学透明性，由于碳纳米管的优异的机械性能而具有较高的柔性。 对称CNT-CNT触摸开关的某些实施例实现了优异的光学透明度（由于CNT膜而导致的<3％的吸收损耗）和电测试中的坚固的触摸开关特性。

公开(公告)号：US20080179571A1

公开(公告)日：2008-07-31

申请号：US11881114

申请日：2007-07-25

申请人： Rahul Sen ,  Ramesh Sivarajan ,  Thomas Rueckes ,  Brent M. Segal

发明人： Rahul Sen ,  Ramesh Sivarajan ,  Thomas Rueckes ,  Brent M. Segal

IPC分类号： H01B1/04 ,  C09D1/00

CPC分类号： C09C1/56 ,  B82Y10/00 ,  B82Y30/00 ,  B82Y40/00 ,  C01B32/152 ,  C01B32/168 ,  C01B32/17 ,  C01B2202/02 ,  C01P2004/03 ,  C01P2004/13 ,  C01P2006/40 ,  C01P2006/80 ,  C08K3/04 ,  C09C1/48 ,  C09D7/70 ,  H01L51/0048 ,  H01L51/0052 ,  Y10S977/742 ,  Y10S977/75 ,  Y10S977/752 ,  Y10S977/755 ,  Y10S977/764 ,  Y10S977/778 ,  Y10S977/786 ,  Y10T428/29 ,  Y10T428/2982

摘要： Certain spin-coatable liquids and application techniques are described, which can be used to form nanotube films or fabrics of controlled properties. A spin-coatable liquid for formation of a nanotube film includes a liquid medium containing a controlled concentration of purified nanotubes, wherein the controlled concentration is sufficient to form a nanotube fabric or film of preselected density and uniformity, and wherein the spin-coatable liquid comprises less than 1×1018 atoms/cm3 of metal impurities. The spin-coatable liquid is substantially free of particle impurities having a diameter of greater than about 500 nm.

公开(公告)号：US07375369B2

公开(公告)日：2008-05-20

申请号：US10860334

申请日：2004-06-03

申请人： Rahul Sen ,  Ramesh Sivarajan ,  Thomas Rueckes ,  Brent M. Segal

发明人： Rahul Sen ,  Ramesh Sivarajan ,  Thomas Rueckes ,  Brent M. Segal

IPC分类号： H01L29/08 ,  H01L35/24 ,  H01L51/00 ,  H01L21/00 ,  H01L21/31

CPC分类号： C09C1/56 ,  B82Y10/00 ,  B82Y30/00 ,  B82Y40/00 ,  C01B32/152 ,  C01B32/168 ,  C01B32/17 ,  C01B2202/02 ,  C01P2004/03 ,  C01P2004/13 ,  C01P2006/40 ,  C01P2006/80 ,  C08K3/04 ,  C09C1/48 ,  C09D7/70 ,  H01L51/0048 ,  H01L51/0052 ,  Y10S977/742 ,  Y10S977/75 ,  Y10S977/752 ,  Y10S977/755 ,  Y10S977/764 ,  Y10S977/778 ,  Y10S977/786 ,  Y10T428/29 ,  Y10T428/2982

摘要： Certain spin-coatable liquids and application techniques are described, which can be used to form nanotube films or fabrics of controlled properties. A spin-coatable liquid for formation of a nanotube film includes a liquid medium containing a controlled concentration of purified nanotubes, wherein the controlled concentration is sufficient to form a nanotube fabric or film of preselected density and uniformity, and wherein the spin-coatable liquid includes less than 1×1018 atoms/cm3 of metal impurities. The spin-coatable liquid is substantially free of particle impurities having a diameter of greater than about 500 nm.

摘要翻译： 描述了一些可旋涂的液体和应用技术，其可以用于形成纳米管膜或受控特性的织物。 用于形成纳米管膜的可旋涂液体包括含有受控浓度的纯化纳米管的液体介质，其中所述受控浓度足以形成预定密度和均匀性的纳米管织物或膜，并且其中所述可旋涂液体包括 小于1×10 18原子/ cm 3的金属杂质。 可旋涂的液体基本上不含直径大于约500nm的颗粒杂质。

公开(公告)号：US07339401B2

公开(公告)日：2008-03-04

申请号：US11197196

申请日：2005-08-04

申请人： Claude L. Bertin ,  Thomas Rueckes ,  Brent M. Segal

发明人： Claude L. Bertin ,  Thomas Rueckes ,  Brent M. Segal

IPC分类号： H03K19/20

CPC分类号： H01L29/0665 ,  B82Y10/00 ,  G11C13/025 ,  G11C23/00 ,  G11C2213/17 ,  H01H1/0094 ,  H01H1/027 ,  H01L27/28 ,  H01L29/0673 ,  H01L29/73 ,  H01L29/78 ,  H01L51/0048 ,  H01L51/0508 ,  Y10S977/708 ,  Y10S977/932 ,  Y10S977/936 ,  Y10S977/938 ,  Y10S977/94 ,  Y10S977/943

摘要： Nanotube-based switching elements with multiple controls and circuits made from such. A switching element includes an input node, an output node, and a nanotube channel element having at least one electrically conductive nanotube. A control structure is disposed in relation to the nanotube channel element to controllably form and unform an electrically conductive channel between said input node and said output node. The output node is constructed and arranged so that channel formation is substantially unaffected by the electrical state of the output node. The control structure includes a control electrode and a release electrode, disposed on opposite sides of the nanotube channel element. The control and release may be used to form a differential input, or if the device is constructed appropriately to operate the circuit in a non-volatile manner. The switching elements may be arranged into logic circuits and latches having differential inputs and/or non-volatile behavior depending on the construction.

摘要翻译： 基于纳米管的开关元件具有由此制成的多个控制和电路。 开关元件包括输入节点，输出节点和具有至少一个导电纳米管的纳米管通道元件。 相对于纳米管通道元件设置控制结构，以可控地形成和取消所述输入节点和所述输出节点之间的导电通道。 输出节点的构造和布置使得通道形成基本上不受输出节点的电气状态的影响。 控制结构包括设置在纳米管通道元件的相对侧上的控制电极和释放电极。 控制和释放可用于形成差分输入，或者如果该装置被适当地构造以以非易失性方式操作电路。 根据结构，开关元件可以被布置成具有差分输入和/或非易失性行为的逻辑电路和锁存器。

公开(公告)号：US07211854B2

公开(公告)日：2007-05-01

申请号：US10864682

申请日：2004-06-09

申请人： Claude L. Bertin ,  Thomas Rueckes ,  Brent M. Segal

发明人： Claude L. Bertin ,  Thomas Rueckes ,  Brent M. Segal

IPC分类号： H01L29/78

CPC分类号： H01L29/78 ,  B82Y10/00 ,  B82Y99/00 ,  G11C7/065 ,  G11C13/025 ,  G11C16/0416 ,  G11C17/16 ,  G11C17/165 ,  G11C23/00 ,  G11C2213/16 ,  G11C2213/17 ,  G11C2213/79 ,  H01H1/0094 ,  H01L27/10 ,  H01L27/1052 ,  H01L27/112 ,  H01L27/11206 ,  H01L27/115 ,  H01L27/286 ,  H01L29/0665 ,  H01L29/0673 ,  H01L29/42324 ,  H01L51/0048 ,  H01L51/0052 ,  H01L51/0508 ,  Y10S977/708 ,  Y10S977/724 ,  Y10S977/742 ,  Y10S977/762 ,  Y10S977/936 ,  Y10S977/938 ,  Y10S977/94 ,  Y10S977/943

摘要： Field effect devices having a gate controlled via a nanotube switching element. Under one embodiment, a non-volatile transistor device includes a source region and a drain region of a first semiconductor type of material and each in electrical communication with a respective terminal. A channel region of a second semiconductor type of material is disposed between the source and drain region. A gate structure is disposed over an insulator over the channel region and has a corresponding terminal. A nanotube switching element is responsive to a first control terminal and a second control terminal and is electrically positioned in series between the gate structure and the terminal corresponding to the gate structure. The nanotube switching element is electromechanically operable to one of an open and closed state to thereby open or close an electrical communication path between the gate structure and its corresponding terminal. When the nanotube switching element is in the closed state, the channel conductivity and operation of the device is responsive to electrical stimulus at the terminals corresponding to the source and drain regions and the gate structure.

摘要翻译： 具有通过纳米管开关元件控制的栅极的场效应器件。 在一个实施例中，非易失性晶体管器件包括第一半导体类型的材料的源极区域和漏极区域，并且各自与相应的端子电连通。 第二半导体类型的材料的沟道区域设置在源区和漏区之间。 栅极结构设置在沟道区域上方的绝缘体上并具有对应的端子。 纳米管开关元件响应于第一控制端子和第二控制端子，并且电连接地定位在栅极结构和对应于栅极结构的端子之间。 纳米管开关元件在机械上可操作地处于打开和关闭状态之一，从而打开或关闭栅极结构及其对应端子之间的电连通路径。 当纳米管开关元件处于闭合状态时，器件的沟道导电性和操作响应于对应于源极和漏极区域以及栅极结构的端子处的电刺激。