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    • 1. 发明申请
    • DEVICES AND METHODS FOR THERMAL ABLATION OF BIOLOGICAL TISSUE USING GEOMETRIC ABLATION PATTERNS
    • 使用几何吸收模式进行生物组织热消解的装置和方法
    • US20160128761A1
    • 2016-05-12
    • US14738503
    • 2015-06-12
    • Steven A. DANIELDavid L. MORRISKee Sein LEE
    • Steven A. DANIELDavid L. MORRISKee Sein LEE
    • A61B18/14
    • A61B18/148A61B18/1477A61B18/1487A61B2018/00267
    • A tissue ablation system including numerous components and methods is described herein for encircling target tissue and generating tissue ablation volumes in various biological tissues. The biological tissue includes tissue of a variety of organs of the human body including the liver, spleen, kidney, lung, breast and other organs, but is not so limited. The tissue ablation device comprises an energy source and at least one trocar coupled to the energy source, the trocar having a body, a proximal end, and a distal end. The trocar carries an electrode array that comprises a plurality of electrodes, each electrode of the plurality of electrodes is configured to extend from the trocar when moved from a retracted state to a deployed state, and to have at least one radius of curvature in the deployed state so that the electrode array forms a series of shaped electrodes in the deployed state.
    • 本文描述了包括许多组分和方法的组织消融系统,用于环绕靶组织并在各种生物组织中产生组织消融体积。 生物组织包括人体各种器官的组织,包括肝,脾,肾,肺,乳腺和其他器官,但不限于此。 组织消融装置包括能量源和耦合到能量源的至少一个套管针,套管针具有主体,近端和远端。 套针针携带包括多个电极的电极阵列,多个电极中的每个电极构造成当套管针从缩回状态移动到展开状态时延伸,并且在所展开的部分中具有至少一个曲率半径 使得电极阵列形成处于展开状态的一系列成形电极。
    • 3. 发明授权
    • Antimicrobial articles and compositions made from styrene butadiene rubber
    • 抗生素制品和由丁苯橡胶制成的组合物
    • US06943205B2
    • 2005-09-13
    • US10423204
    • 2003-04-25
    • Bhawan PatelDavid L. Morris
    • Bhawan PatelDavid L. Morris
    • C08K3/00C08K3/08C08K3/22C08K5/09C08K5/10C08K5/12C08K5/34
    • C08K3/08C08K3/015C08K3/22C08L21/00
    • This invention relates to certain non-silicone vulcanized rubber articles that are made from at least a majority by weight of vulcanized styrene butadiene rubber that include silver-based compounds to provide highly desirable long-term antimicrobial characteristics within the cured rubber articles. Such articles are in either solid or blown (foam or sponge) state (or combinations of both in multilayered forms) and can be utilized in a variety of different applications. This invention encompasses the presence of non-sulfur-based curing systems and agents, such as peroxide curing, that permit vulcanization and do not irreversibly bind silver ions thereto, thereby resulting in long-term antimicrobial performance of the ultimate rubber article itself. This invention also encompasses certain non-silicone pre-vulcanized raw rubber formulations made from at least a majority by weight of styrene butadiene rubber that include silver-based components to provide highly desirable long-term antimicrobial characteristics within the ultimate cured rubber articles made therefrom.
    • 本发明涉及由至少大部分重量的硫化苯乙烯丁二烯橡胶制成的某些非硅氧烷硫化橡胶制品,其包括银基化合物,以在固化的橡胶制品中提供非常理想的长期抗菌特性。 这样的制品是固体或吹制(泡沫或海绵)状态(或两者的组合形式),可用于各种不同的应用。 本发明包括非硫基固化体系和诸如过氧化物固化的试剂的存在,其允许硫化并且不会不可逆地将银离子结合到其上,从而导致最终橡胶制品本身的长期抗微生物性能。 本发明还包括由至少大部分重量的苯乙烯丁二烯橡胶制成的某些非硅氧烷预硫化生橡胶配方,其包括银基组分,以在由其制成的最终固化的橡胶制品中提供高度期望的长期抗微生物特性。
    • 4. 发明授权
    • Conductive focus waffle
    • 导电聚焦华夫饼
    • US06528930B1
    • 2003-03-04
    • US09660318
    • 2000-09-12
    • David C. ChangArthur J. LearnBob L. MackeyPaul M. DrummDavid L. Morris
    • David C. ChangArthur J. LearnBob L. MackeyPaul M. DrummDavid L. Morris
    • H01J916
    • H01J9/148H01J9/025H01J29/467H01J2329/00
    • A conductive focus waffle structure for focusing electrons emitted from a cathode portion of a flat panel display device. In one embodiment, the conductive focus waffle structure comprises a grid of material comprised of substantially orthogonally oriented rows and columns. The substantially orthogonally oriented rows and columns define openings therebetween having sufficient size to allow electrons emitted from a cathode portion of a flat panel display device to pass therethrough. The focus waffle grid further comprises a lower dielectric portion adapted to be coupled to the cathode portion of the flat panel display device and an upper conductive portion coupled to the lower dielectric portion, the upper conductive portion adapted to focus the electrons passing through the openings.
    • 一种用于聚焦从平板显示装置的阴极部分发射的电子的导电聚焦华夫饼结构。 在一个实施例中,导电聚焦华夫饼结构包括由基本上正交取向的行和列组成的材料格栅。 基本上正交取向的行和列限定了具有足够尺寸的开口,以允许从平板显示装置的阴极部分发射的电子通过。 焦点楔形栅格还包括适于联接到平板显示装置的阴极部分的下介电部分和耦合到下电介质部分的上导电部分,上导电部分适于聚焦穿过开口的电子。
    • 5. 发明授权
    • Procedures and apparatus for turning-on and turning-off elements within a field emission display device
    • 场致发射显示装置内的接通和关断元件的程序和装置
    • US06307325B1
    • 2001-10-23
    • US09493698
    • 2000-01-28
    • Donald J. EllowayDavid L. MorrisWilliam J. ScannellChristopher J. Spindt
    • Donald J. EllowayDavid L. MorrisWilliam J. ScannellChristopher J. Spindt
    • G09G310
    • G09G3/22G09G2310/06G09G2310/066G09G2330/02H01J9/39H01J9/44H01J31/127H01J2209/0223
    • A method of removing contaminant particles in newly fabricated field emission displays. According to one embodiment of the present invention, contaminant particles are removed by a conditioning process which includes the steps of: a) driving a anode of a field emission display (FED) to a predetermined voltage; b) slowly increasing an emission current of the FED after the anode has reached the predetermined voltage; and c) providing an ion-trapping device for catching the ions and particles knocked off, or otherwise released, by emitted electrons. In this embodiment, by driving the anode to the predetermined voltage and by slowly increasing the emission current of the FED, contaminant particles are effectively removed without damaging the FED. The present invention also provides a method of operating FEDs to prevent gate-to-emitter current during turn-on and turn-off. In this embodiment, the method comprises the steps of: a) enabling the anode display screen; and, b) enabling the electron-emitters after the anode display screen is enabled. In this embodiment, by allowing sufficient time for the anode display screen to reach a predetermined voltage before the emitter is enabled, the emitted electrons will be attracted to the anode.
    • 一种在新制造的场致发射显示器中去除污染物颗粒的方法。 根据本发明的一个实施例,污染物颗粒通过调节过程去除,包括以下步骤:a)将场致发射显示器(FED)的阳极驱动到预定电压; b)在阳极达到预定电压后,缓慢增加FED的发射电流; 以及c)提供离子捕获装置,用于捕获被发射的电子撞击或以其它方式释放的离子和颗粒。 在本实施例中,通过将阳极驱动到预定电压并且通过缓慢增加FED的发射电流,有效地去除污染物颗粒而不损坏FED。 本发明还提供了一种在开启和关断期间操作FED以防止栅极 - 发射极电流的方法。 在该实施例中,该方法包括以下步骤:a)启用阳极显示屏; 并且b)在使能阳极显示屏幕之后启用电子发射器。 在本实施例中,通过在发射极使能之前允许阳极显示屏足够的时间达到预定电压,发射的电子将被吸引到阳极。
    • 8. 发明授权
    • Multi-level conductive matrix formation method
    • 多层导电矩阵形成方法
    • US5858619A
    • 1999-01-12
    • US940819
    • 1997-09-30
    • David C. ChangArthur J. LearnBob L. MackeyPaul M. DrummDavid L. Morris
    • David C. ChangArthur J. LearnBob L. MackeyPaul M. DrummDavid L. Morris
    • H01J9/227G03F7/00H01J9/18H01J9/24B05D5/12
    • G03F7/0035G03F7/0007H01J9/185H01J9/242H01J2329/863
    • A method for forming a three-dimensional multi-level conductive matrix structure for a flat panel display device. In one embodiment, the present invention forms first pixel separating structures across a surface of a faceplate of a flat panel display. The first pixel separating structures separate adjacent first sub-pixel regions. In this embodiment, the first pixel separating structures are formed by applying a first layer of photo-imagable material across the surface of the faceplate. Next, portions of the first layer of photo-imagable material are removed to leave regions of the first layer of photo-imagable material covering respective first sub-pixel regions. Then, a first layer of conductive material is applied over the surface of the faceplate such that the first layer conductive material is disposed between the aforementioned regions of the first layer of photo-imagable material. The present invention then removes the regions of the first layer of photo-imagable material leaving only first pixel separating structures formed of the first layer of conductive material, disposed between the first sub-pixel regions. The present invention performs similar steps in order to form second pixel separating structures between the second sub-pixel regions. The second pixel separating structures are formed substantially orthogonally oriented with respect to the first pixel separating structures and, in the present embodiment, have a different height than the first pixel separating structures. In so doing, a three-dimensional multi-level conductive matrix structure is formed.
    • 一种用于形成用于平板显示装置的三维多层导电矩阵结构的方法。 在一个实施例中,本发明在平板显示器的面板的表面上形成第一像素分离结构。 第一像素分离结构分离相邻的第一子像素区域。 在该实施例中,通过在面板的表面上施加第一层可光成像材料来形成第一像素分离结构。 接下来,去除第一层可光成像材料的部分以留下覆盖相应的第一子像素区域的第一层可光成像材料的区域。 然后,将第一层导电材料施加在面板的表面上,使得第一层导电材料设置在第一层可光成像材料的上述区域之间。 然后,本发明移除第一层可光成像材料的区域,仅留下由第一子像素区域之间的第一导电材料层形成的第一像素分离结构。 为了在第二子像素区域之间形成第二像素分离结构,本发明执行类似的步骤。 第二像素分离结构相对于第一像素分离结构基本上正交地定向,并且在本实施例中,具有与第一像素分离结构不同的高度。 这样做形成三维多层导电矩阵结构。