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    • 3. 发明授权
    • Multilevel imprint lithography
    • 多层压印光刻
    • US07256435B1
    • 2007-08-14
    • US10453329
    • 2003-06-02
    • Pavel KornilovichYong ChenDuncan StewartR. Stanley WilliamsPhilip J. KuekesMehmet Fatih Yanik
    • Pavel KornilovichYong ChenDuncan StewartR. Stanley WilliamsPhilip J. KuekesMehmet Fatih Yanik
    • H01L27/10
    • H01L21/76838B81C99/009B81C2201/0153B82Y10/00B82Y40/00G03F7/0002
    • A mold with a protruding pattern is provided that is pressed into a thin polymer film via an imprinting process. Controlled connections between nanowires and microwires and other lithographically-made elements of electronic circuitry are provided. An imprint stamp is configured to form arrays of approximately parallel nanowires which have (1) micro dimensions in the X direction, (2) nano dimensions and nano spacing in the Y direction, and three or more distinct heights in the Z direction. The stamp thus formed can be used to connect specific individual nanowires to specific microscopic regions of microscopic wires or pads. The protruding pattern in the mold creates recesses in the thin polymer film, so the polymer layer acquires the reverse of the pattern on the mold. After the mold is removed, the film is processed such that the polymer pattern can be transferred on a metal/semiconductor pattern on the substrate.
    • 提供具有突出图案的模具,其通过压印过程被压入薄聚合物膜。 提供了纳米线和微丝之间的控制连接以及电子电路的其它光刻元件。 打印印记被配置成形成大致平行的纳米线的阵列,其具有(1)X方向上的微尺寸,(2)在Y方向上的纳米尺寸和纳米间距,以及Z方向上的三个或更多个不同的高度。 如此形成的印章可以用于将特定的单个纳米线连接到微细线或垫的特定微观区域。 模具中的突出图案在薄聚合物膜中产生凹陷,因此聚合物层获得模具上图案的相反。 在除去模具之后,处理膜,使得聚合物图案可以在基底上的金属/半导体图案上转印。
    • 4. 发明授权
    • Low-forward-voltage molecular rectifier
    • 低电压分子整流器
    • US07009201B2
    • 2006-03-07
    • US10703266
    • 2003-11-07
    • Pavel KornilovichAlexendre M. BratkovskiShun-Chi ChangR. Stanley Williams
    • Pavel KornilovichAlexendre M. BratkovskiShun-Chi ChangR. Stanley Williams
    • H01L51/00
    • H01L51/0595B82Y10/00H01L51/005Y10S977/70Y10S977/932Y10S977/936
    • A single molecular species having a low-forward-voltage rectifying property is provided. The molecular species is represented by the formula: CL-IL-A-IR-CR where A is a “conducting” moiety (with a relatively narrow HOMO-LUMO gap), IL and IR are each an “insulating” moiety (with a relatively wide HOMO-LUMO gap), CL is a connecting group for attachment to a first electrode, and CR is a connecting group for attachment to a second electrode. Also, a low-forward-voltage rectifying molecular rectifier is provided, comprising the molecular species attached between the two electrodes. The present teachings provide a set of design rules to build single-molecule rectifying diodes that operate at low forward and large reverse voltages. Such single-molecule rectifying diodes are useful in a variety of nano-scale applications.
    • 提供具有低正向电压整流特性的单一分子种类。 分子种类由以下公式表示:<?in-line-formula description =“In-line Formulas”end =“lead”?> CL-IL-A-IR-CR <?in-line-formula description =“ 其中A是“导电”部分(具有较窄的HOMO-LUMO间隙),IL和IR各自为“绝缘”部分(具有较宽的HOMO-LUMO间隙 )中,CL是用于连接到第一电极的连接组,CR是连接到第二电极的连接组。 此外,提供了一种低电压整流分子整流器,其包括附着在两个电极之间的分子种类。 本教导提供了一组设计规则来构建在低正向和反向电压较低的情况下工作的单分子整流二极管。 这种单分子整流二极管可用于各种纳米级应用。