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    • 41. 发明授权
    • Scanning, copying, and printing with rewritable media
    • 使用可重写介质进行扫描,复制和打印
    • US06806453B1
    • 2004-10-19
    • US10051669
    • 2002-01-17
    • Kent D. VincentXia-An ZhangR. Stanley WilliamsPhilip J. Kuekes
    • Kent D. VincentXia-An ZhangR. Stanley WilliamsPhilip J. Kuekes
    • H01L2700
    • B41J3/4076
    • A scan-print device is hand-held and is scanned over the surface of a paper-like rewritable sheet. The sheet has a colorant responsive to a linear array of pixel-sized electric fields written over the sheet by the scan-print device during each scan, producing a bistable pixel (e.g., black or white) in response to field polarity. The bi-stable, rewritable colorant is highly energy efficient, requiring energy only to change an image, not to hold or illuminate it. Once a series of scans sufficient to cover the entire sheet has been made, the printed image appears as if printed conventionally. The print remains stable until reprinted or intentionally erased. Combined with hand-held scanner-copier technology, a portable copier is also implemented.
    • 扫描打印设备是手持式的,并且被扫描在纸状可重写纸张的表面上。 片材具有响应于在每次扫描期间由扫描打印设备在片材上写入的像素尺寸的电场线性阵列的着色剂,响应于场极性产生双稳态像素(例如黑色或白色)。 双稳态可重写着色剂具有高能效,仅需要能量来改变图像,而不是保持或照亮图像。 一旦已经完成了足以覆盖整个片材的一系列扫描,印刷的图像看起来像传统上印刷一样。 打印保持稳定,直到转印或故意删除。 结合手持式扫描复印机技术,还实现了便携式复印机。
    • 42. 发明授权
    • Molecular devices activated by an electric field for electronic ink and other visual display
    • 通过电场激活的分子器件用于电子墨水等视觉显示
    • US06805817B2
    • 2004-10-19
    • US09932186
    • 2001-08-17
    • Xiao-An ZhangAlexandre BratkovskiYong ChenR. Stanley WilliamsKent D. Vincent
    • Xiao-An ZhangAlexandre BratkovskiYong ChenR. Stanley WilliamsKent D. Vincent
    • H01B112
    • G11C13/0014B82Y10/00C09D11/03C09D11/50C09K9/02G02B26/026G02F1/15G02F1/17G02F1/174G11C13/02G11C13/04G11C23/00G11C2213/14G11C2213/77
    • An electric field activated molecular system, preferably bi-stable, configured within an electric field generated by a pair of electrodes is provided for use, e.g., as electronic ink or other visual displays. The molecular system has an electric field induced band gap change that occurs via a change (reversible or irreversible) of the extent of the electron conjugation via chemical bonding change to change the band gap, wherein in a first state, there is substantial conjugation throughout the molecular system, resulting in a relatively smaller band gap, and wherein in a second state, the substantial conjugation is destroyed, resulting in a relatively larger band gap. The changing of substantial conjugation may be accomplished in one of the following ways: (1) charge separation or recombination accompanied by increasing or decreasing electron localization in the molecule; or (2) change of substantial conjugation via charge separation or recombination and&pgr;-bond breaking or making. A primary advantage of the molecular system is improved contrast. Because the colorant of the present invention is molecular and thus effectively monoplanar, there should be no backside reflection or excessive scattering from the colorant. A second advantage of the present invention is improved resolution. Finally, each molecule of the present invention will latch to stabilize one or the other of its color states.
    • 提供了在由一对电极产生的电场内配置的电场活化分子系统,优选双稳态,用于例如电子墨水或其它视觉显示器。 分子系统具有电场诱导的带隙变化,其通过经由化学键合改变的电子共轭程度的变化(可逆的或不可逆的)发生,以改变带隙,其中在第一状态下,在整个 分子系统,导致相对较小的带隙,并且其中在第二状态下,基本共轭被破坏,导致相对较大的带隙。 基本共轭的改变可以通过以下方式之一来实现:(1)伴随着分子中电子定位增加或减少的电荷分离或重组; 或(2)通过电荷分离或重组和断裂或制造改变基本共轭。 分子系统的主要优点是对比度提高。 因为本发明的着色剂是分子的,因此有效地是单面的,所以不应该有着色剂的背面反射或过度的散射。 本发明的第二个优点是分辨率提高。 最后,本发明的每个分子将锁定以稳定其一个或多个其颜色状态。
    • 47. 发明授权
    • Heated transfer line for capillary tubing
    • 用于毛细管的加热输送管线
    • US4735259A
    • 1988-04-05
    • US912864
    • 1986-09-29
    • Kent D. Vincent
    • Kent D. Vincent
    • G01N30/30G01N30/84G01N30/86G01N30/88F28F13/00F24H1/14G01N30/02
    • G01N30/30G01N2030/3061G01N2030/8435G01N2030/8804G01N30/8631
    • A heated transfer line for heating a small glass capillary tube is disclosed. The transfer line is small and removable yet highly efficient, capable of uniformly heating a glass capillary tube over a 5-inch length to more than 400 degrees with less than 30 watts of power. The power is applied to an electrically conductive heater tube, which encircles the glass capillary, via first and second current conductors attached to respective ends of the heater tube. The first and second current conductors are arranged in proximity to the heater tube and back along the heater tube to a common point without touching each other. Electrical insulation is disposed between the heater tube and the first and second current conductors to electrically isolate the heater tube from the current conductors. A cover of thermal insulation is disposed over the heater tube and the current conductors and is used to thermally isolate the heater tube. An outer tube is disposed around the thermal insulation as a cover. A mounting ferrule is connected to the outer tube at the common point for mechanically mounting the transfer line and for providing an exit for the first and second current conductors.
    • 公开了一种用于加热小玻璃毛细管的加热输送管线。 传输线路小且可移动但高效,能够将5英寸长的玻璃毛细管均匀地加热到超过400度,功率小于30瓦。 通过连接到加热器管的相应末端的第一和第二电流导体将功率施加到环绕玻璃毛细管的导电加热器管上。 第一和第二电流导体被布置在靠近加热器管并且沿加热器管回到公共点而不彼此接触。 电绝缘设置在加热器管和第一和第二电流导体之间,以将加热器管与电流导体电隔离。 隔热罩设置在加热管和电流导体之上,用于隔热加热管。 外管围绕绝热体设置为盖。 安装套圈在公共点处连接到外管,用于机械地安装传输线并为第一和第二电流导体提供出口。