公开(公告)号：USD901318S1

公开(公告)日：2020-11-10

申请号：US29644046

申请日：2018-04-13

Applicant: Jeffrey Keith Perkins

Designer： Jeffrey Keith Perkins

公开(公告)号：US09063063B2

公开(公告)日：2015-06-23

申请号：US14075840

申请日：2013-11-08

Applicant: Adam L. Friedman ,  F. Keith Perkins ,  Enrique Cobas ,  Paul M Campbell ,  Glenn G. Jernigan ,  Berend T Jonker

Inventor： Adam L. Friedman ,  F. Keith Perkins ,  Enrique Cobas ,  Paul M Campbell ,  Glenn G. Jernigan ,  Berend T Jonker

IPC: G01N27/12 ,  G01N27/02 ,  G01N27/00 ,  G01N33/00 ,  B82Y15/00

CPC classification number: G01N27/125 ,  B82Y15/00 ,  G01N27/02 ,  G01N33/0027 ,  G01N33/0036 ,  G01N33/0057 ,  Y10T29/49117 ,  Y10T436/17 ,  Y10T436/173845 ,  Y10T436/174614

Abstract: A method of making a low-dimensional material chemical vapor sensor comprising exfoliating MoS2, applying the monolayer flakes of MoS2 onto a SiO2/Si wafer, applying a methylmethacrylate (MMA)/polymethylmethacrylate (PMMA) film, defining trenches for the deposition of metal contacts, and depositing one of Ti/Au, Au, and Pt in the trench and resulting in a MoS2 sensor. A low-dimensional material chemical vapor sensor comprising monolayer flakes of MoS2, trenches in the SiO2/Si wafer, metal contacts in the trenches, and thereby resulting in a MoS2 sensor. A full spectrum sensing suite comprising similarly fabricated parallel sensors made from a variety of low-dimensional materials including graphene, carbon nanotubes, MoS2, BN, and the family of transition metal dichalcogenides. The sensing suites are small, robust, sensitive, low-power, inexpensive, and fast in their response to chemical vapor analytes.

Abstract translation: 一种制备低分子材料化学气相传感器的方法，其包括去除MoS2，将MoS2的单层薄片施加到SiO 2 / Si晶片上，施加甲基丙烯酸甲酯（MMA）/聚甲基丙烯酸甲酯（PMMA）膜，限定用于沉积金属触点的沟槽 ，并在沟槽中沉积Ti / Au，Au和Pt中的一种，并产生MoS2传感器。 包括MoS2的单层薄片，SiO 2 / Si晶片中的沟槽，沟槽中的金属触点，从而产生MoS2传感器的低维材料化学气相传感器。 全频谱感测套件包括由包括石墨烯，碳纳米管，MoS2，BN和过渡金属二硫属化物族的各种低维材料制成的类似制造的平行传感器。 感应套件小巧，坚固，灵敏，低功耗，廉价，快速响应化学气相分析物。

公开(公告)号：US20100300887A1

公开(公告)日：2010-12-02

申请号：US12476522

申请日：2009-06-02

Applicant: Perry Skeath ,  F. Keith Perkins ,  Lee James Johnson ,  John R. Peele ,  William Bassett

Inventor： Perry Skeath ,  F. Keith Perkins ,  Lee James Johnson ,  John R. Peele ,  William Bassett

IPC: C25D5/54 ,  C25D5/00

CPC classification number: C25D5/54 ,  C25D5/003 ,  C25D5/028 ,  C25D17/10 ,  C25D21/02 ,  C25D21/04

Abstract: A method of immersing an electrode in an electroplating solution while under vacuum, to substantially eliminate air and/or other gas from microscopic holes, cavities or indentations in the electrode. A method of electroplating an electrode in an electroplating solution including the application of a vacuum to the electrode while it is immersed in the electroplating solution to thereby substantially eliminate air and/or other gas from microscopic holes, cavities or indentations in the electrode. The electroplating liquid may be applied to only one side of the electrode (“the wet side”) in which case, sufficient time is allowed to pass for the immersion liquid to fill the microscopic through-holes, cavities or indentations in the electrode. An enhancement of this mode is to force liquid through the microscopic holes from the wet side. A highly penetrating solvent may be used as an immersion liquid. Alternatively, carbon dioxide can be used as an immersion liquid, in which case the liquid carbon dioxide may be obtained by adjusting the temperature and pressure conditions in a closed container of gaseous carbon dioxide.

Abstract translation: 一种在真空下将电极浸入电镀溶液中的方法，以基本上从电极中的微孔，空腔或凹陷中消除空气和/或其它气体。 一种在电镀溶液中电镀电极的方法，包括在将电极浸入电镀溶液中时向电极施加真空，从而基本上从电极中的微孔，空腔或凹陷中消除空气和/或其它气体。 电镀液体可以仅施加到电极的一侧（“湿侧”），在这种情况下，允许足够的时间通过浸液以填充电极中的微小通孔，空腔或凹陷。 这种模式的增强是迫使液体通过来自湿侧的微孔。 可以使用高渗透性的溶剂作为浸液。 或者，可以使用二氧化碳作为浸液，在这种情况下，可以通过调节气态二氧化碳的密闭容器中的温度和压力条件来获得液态二氧化碳。

公开(公告)号：US20150334050A1

公开(公告)日：2015-11-19

申请号：US14807483

申请日：2015-07-23

Applicant: Stephen Perkins ,  Keith Perkins

Inventor： Stephen Perkins ,  Keith Perkins

IPC: H04L12/911

CPC classification number: H04L47/829 ,  H04B7/18506 ,  H04L47/783 ,  H04L67/12 ,  H04L67/28 ,  H04L67/2823 ,  H04L67/30

Abstract: The disclosed subject matter describes a method, system, apparatus, and storage medium for interfacing multiple communication systems via a partitionable router. The router has at least two partitions, each partition having a subset of the router's resources allocated to it. Software programs are executed within each partition using their respective allocated resources. The resources, and any subset thereof, may be allocated non-exclusively, exclusively, and/or non-linearly to the partitions. The router receives information and determines the format of the information. The router identifies the receiving party and transforms the received information into a format compatible for the receiving party. The router then transmits the converted information to the receiving party, where the transmitting and/or receiving party is one of the software programs.

Abstract translation: 所公开的主题描述了用于经由可分割路由器来连接多个通信系统的方法，系统，装置和存储介质。 路由器至少有两个分区，每个分区具有分配给它的路由器资源的子集。 使用各自分配的资源在每个分区内执行软件程序。 资源及其任何子集可以非排他地，专门地和/或非线性地分配给分区。 路由器接收信息并确定信息的格式。 路由器识别接收方，并将接收到的信息转换成与接收方兼容的格式。 然后，路由器将转换的信息发送到接收方，其中发送和/或接收方是软件程序之一。

公开(公告)号：US09005270B2

公开(公告)日：2015-04-14

申请号：US13430942

申请日：2012-03-27

Applicant: Keith Perkins ,  Samuel Robaina ,  Jeffery Argentine ,  Walter Bruszewski ,  Andrew Kiehl

Inventor： Keith Perkins ,  Samuel Robaina ,  Jeffery Argentine ,  Walter Bruszewski ,  Andrew Kiehl

IPC: A61F2/82 ,  A61F2/915

CPC classification number: A61F2/915 ,  A61F2002/91525

Abstract: A method includes covering ostai of branch vessels emanating from a main vessel and an aneurysm with a high metal to vessel ratio stent. A metal to vessel ratio of the high metal to vessel ratio stent is sufficiently high to encourage tissue ingrowth around the high metal to vessel ratio stent yet is sufficiently low to ensure perfusion of the branch vessels through the high metal to vessel ratio stent. The ingrowth of tissue provides secure fixation and sealing of the high metal to vessel ratio stent to the main vessel and remodels and essentially eliminates the aneurysm. Further, as the entire high metal to vessel ratio stent is permeably, the high metal to vessel ratio stent is deployed without having to rotationally position the high metal to vessel ratio stent.

Abstract translation: 一种方法包括覆盖从主血管发出的分支血管和具有高金属与血管比例支架的动脉瘤。 高金属与血管比支架的金属与血管比例足够高以促使组织向内生长高金属与血管比例支架，但足够低以确保分支血管通过高金属与血管比例的支架灌注。 组织的向内生长提供了高金属与血管比例支架到主血管的牢固固定和密封，并且改造并且基本上消除了动脉瘤。 此外，随着整个高金属与血管比例的支架是可渗透的，高金属与血管比例的支架被展开，而不必旋转地定位高金属与血管比例的支架。

公开(公告)号：US20140068080A1

公开(公告)日：2014-03-06

申请号：US13721741

申请日：2012-12-20

Applicant: Stephen Perkins ,  Keith Perkins

Inventor： Stephen Perkins ,  Keith Perkins

IPC: H04L12/911

CPC classification number: H04L47/829 ,  H04B7/18506 ,  H04L47/783 ,  H04L67/12 ,  H04L67/28 ,  H04L67/2823 ,  H04L67/30

Abstract: The disclosed subject matter describes a method, system, apparatus, and storage medium for interfacing multiple communication systems via a partitionable router. The router has at least two partitions, each partition having a subset of the router's resources allocated to it. Software programs are executed within each partition using their respective allocated resources. The resources, and any subset thereof, may be allocated non-exclusively, exclusively, and/or non-linearly to the partitions. The router receives information and determines the format of the information. The router identifies the receiving party and transforms the received information into a format compatible for the receiving party. The router then transmits the converted information to the receiving party, where the transmitting and/or receiving party is one of the software programs.

Abstract translation: 所公开的主题描述了用于经由可分割路由器来连接多个通信系统的方法，系统，装置和存储介质。 路由器至少有两个分区，每个分区具有分配给它的路由器资源的子集。 使用各自分配的资源在每个分区内执行软件程序。 资源及其任何子集可以非排他地，专门地和/或非线性地分配给分区。 路由器接收信息并确定信息的格式。 路由器识别接收方，并将接收到的信息转换成与接收方兼容的格式。 然后，路由器将转换的信息发送到接收方，其中发送和/或接收方是软件程序之一。

公开(公告)号：US20060249402A1

公开(公告)日：2006-11-09

申请号：US11239430

申请日：2005-09-27

Applicant: Eric Snow ,  F. Keith Perkins ,  Eric Houser ,  Stan Stepnowski ,  R. McGill

Inventor： Eric Snow ,  F. Keith Perkins ,  Eric Houser ,  Stan Stepnowski ,  R. McGill

IPC: G01N17/04

CPC classification number: B82Y30/00 ,  B82Y15/00 ,  G01N27/226 ,  G01N27/3278 ,  Y10S977/702 ,  Y10S977/742 ,  Y10S977/92

Abstract: A sensing device having: a bottom electrode, a dielectric on the bottom electrode, a grid of nanoelectrodes on the dielectric, and a top electrode in electrical contact with the grid. A method of chemical or biological sensing comprising: providing a grid of nanoelectrodes; exposing the grid to fluid suspected of containing a chemical or biological analyte; and measuring a change in the capacitance and conductance of the grid.

Abstract translation: 一种感测装置，具有：底部电极，底部电极上的电介质，电介质上的纳米电极栅格，以及与电网电接触的顶部电极。 一种化学或生物感测方法，包括：提供纳米电极的格栅; 将电网暴露于怀疑含有化学或生物分析物的流体; 并测量电网的电容和电导的变化。

公开(公告)号：US06392242B1

公开(公告)日：2002-05-21

申请号：US09320673

申请日：1999-05-27

Applicant: F. Keith Perkins ,  Daniel McCarthy ,  Martin C. Peckerar ,  Christie R. K. Marrian ,  Eric S. Snow

Inventor： F. Keith Perkins ,  Daniel McCarthy ,  Martin C. Peckerar ,  Christie R. K. Marrian ,  Eric S. Snow

IPC: G01I100

CPC classification number: H01J37/3045 ,  H01J2237/30438

Abstract: A fiducial beam monitor includes a patterned diode layer on a semiconducting substrate. An electrical field between the diode (or diodes) on the diode layer and the semiconducting substrate modulates the size of the depletion layer formed by the diode or diode. A high energy beam incident upon a diode on the diode layer produces a greater current than a high energy beam incident upon a non-diodic region of the same layer. In use, the beam monitor is typically fixed to the backside of a workpiece such as a semitransparent membrane being patterned by a focused high energy beam that is translated with respect to workpiece and attached monitor. The changes in current during translation are then correlated with the position of the beam with respect to the pattern on the diode layer.

Abstract translation: 基准光束监视器包括在半导体衬底上的图案化二极管层。 二极管层上的二极管（或二极管）和半导体衬底之间的电场调制由二极管或二极管形成的耗尽层的尺寸。 入射到二极管层上的二极管上的高能束产生比入射在同一层的非二极区上的高能量束更大的电流。 在使用中，光束监视器通常固定在工件的背面，例如通过相对于工件和连接的监视器平移的聚焦的高能量光束来图案化的半透明膜。 然后平移过程中的电流变化与二极管层上图案的光束位置相关。

公开(公告)号：US20180052145A1

公开(公告)日：2018-02-22

申请号：US15555175

申请日：2016-03-04

Applicant: Keith Perkins ,  Christopher Charles Back

Inventor： Keith Perkins ,  Christopher Charles Back

IPC: G01N33/18 ,  G05D7/06

CPC classification number: G01N33/182 ,  G01N33/18 ,  G05D7/0617

Abstract: A wastewater analyser assembly comprises an overflow reservoir for receiving wastewater from an input. The overflow reservoir comprises a weir for wastewater to overflow and exit the overflow reservoir. There is a wastewater sample outlet in the overflow reservoir for passing wastewater from within the overflow reservoir to an analyser.

公开(公告)号：US09393136B2

公开(公告)日：2016-07-19

申请号：US13430907

申请日：2012-03-27

Applicant: Keith Perkins ,  Samuel Robaina ,  Jeffery Argentine ,  Walter Bruszewski ,  Andrew Kiehl

Inventor： Keith Perkins ,  Samuel Robaina ,  Jeffery Argentine ,  Walter Bruszewski ,  Andrew Kiehl

IPC: A61F2/06 ,  A61F2/04 ,  A61F2/915 ,  A61F2/07 ,  A61F2/90 ,  A61F2/91 ,  A61F2/848

CPC classification number: A61F2/915 ,  A61F2/07 ,  A61F2/90 ,  A61F2/91 ,  A61F2002/061 ,  A61F2002/065 ,  A61F2002/8486 ,  A61F2002/91508 ,  A61F2002/91516 ,  A61F2002/91525 ,  A61F2230/0013 ,  A61F2250/0018 ,  A61F2250/0029

Abstract: A variable zone high metal to vessel ratio stent includes a proximal high metal to vessel ratio zone, a central low metal to vessel ratio zone, and a distal high metal to vessel ratio zone. The proximal high metal to vessel ratio zone is deployed with fixation and sealing to healthy tissue of a main vessel superior to branch vessels and an aneurysm. The central low metal to vessel ratio zone is deployed directly on ostai of the branch vessels. However, as the central low metal to vessel ratio zone is highly permeable, blood flows from the main vessel through the central low metal to vessel ratio zone and into branch vessels.

Abstract translation: 可变区高金属与血管比例支架包括近端高金属与血管比例区域，中心低金属与血管比例区域和远端高金属与血管比例区域。 近端高金属与血管比例区域以固定和密封方式部署在主血管的优于分支血管和动脉瘤的健康组织上。 中心的低金属与血管比例区域直接部署在分支血管的Ostai上。 然而，由于中心的低金属与血管比例区域是高度可渗透的，血液从主血管通过中心的低金属到血管比例区域流入分支血管。