公开(公告)号：US20170125372A1

公开(公告)日：2017-05-04

申请号：US15408930

申请日：2017-01-18

Applicant: Nthdegree Technologies Worldwide Inc.

Inventor： William Johnstone Ray ,  Richard Austin Blanchard ,  Mark David Lowenthal ,  Bradley Steven Oraw

IPC: H01L23/00 ,  H01L25/18 ,  H01L25/07 ,  H01L25/00

CPC classification number: H01L24/95 ,  H01L21/563 ,  H01L23/3121 ,  H01L24/06 ,  H01L24/24 ,  H01L24/25 ,  H01L24/32 ,  H01L24/73 ,  H01L24/82 ,  H01L24/92 ,  H01L25/0655 ,  H01L25/072 ,  H01L25/0753 ,  H01L25/18 ,  H01L25/50 ,  H01L33/20 ,  H01L2221/68381 ,  H01L2224/06181 ,  H01L2224/24137 ,  H01L2224/25105 ,  H01L2224/25174 ,  H01L2224/32225 ,  H01L2224/73267 ,  H01L2224/82101 ,  H01L2224/82104 ,  H01L2224/82143 ,  H01L2224/92244 ,  H01L2224/95085 ,  H01L2224/95101 ,  H01L2224/95102 ,  H01L2224/95115 ,  H01L2224/95143 ,  H01L2224/95146 ,  H01L2924/10253 ,  H01L2924/12 ,  H01L2924/1203 ,  H01L2924/12041 ,  H01L2924/13 ,  H01L2924/1301 ,  H01L2924/13034 ,  H01L2924/1305 ,  H01L2924/13062 ,  H01L2924/13091 ,  H05K1/029 ,  H05K1/0296 ,  H05K3/12

Abstract: A programmable circuit includes an array of printed groups of microscopic transistors or diodes. The devices are pre-formed and printed as an ink and cured. The devices in each group are connected in parallel so that each group acts as a single device. In one embodiment, about 10 devices are contained in each group so the redundancy makes each group very reliable. Each group has at least one electrical lead that terminates in a patch area on the substrate. An interconnection conductor pattern interconnects at least some of the leads of the groups in the patch area to create logic circuits for a customized application of the generic circuit. The groups may also be interconnected to be logic gates, and the gate leads terminate in the patch area. The interconnection conductor pattern then interconnects the gates for form complex logic circuits.

公开(公告)号：US20170077344A1

公开(公告)日：2017-03-16

申请号：US15359514

申请日：2016-11-22

Applicant: Nthdegree Technologies Worldwide Inc.

Inventor： Tricia Youngbull ,  Bradley Steven Oraw ,  William Johnstone Ray

IPC: H01L31/18 ,  H01L31/0443 ,  H01L31/0463 ,  H01L31/0352

CPC classification number: H01L31/1824 ,  H01L27/1421 ,  H01L31/035281 ,  H01L31/03529 ,  H01L31/0443 ,  H01L31/046 ,  H01L31/0463 ,  H01L31/0465 ,  H01L31/18 ,  H01L31/188 ,  Y02E10/50

Abstract: A PV module is formed having an array of PV cells, where the cells are separated by gaps. Each cell contains an array of small silicon sphere diodes (10-300 microns in diameter) connected in parallel. The diodes and conductor layers may be patterned by printing. A continuous metal substrate supports the diodes and conductor layers in all the cells. A dielectric substrate is laminated to the metal substrate. Trenches are then formed by laser ablation around the cells to sever the metal substrate to form electrically isolated PV cells. A metallization step is then performed to connect the cells in series to increase the voltage output of the PV module. An electrically isolated bypass diode for each cell is also formed by the trenching step. The metallization step connects the bypass diode and its associated cell in a reverse-parallel relationship.

Abstract translation: 形成具有PV电池阵列的PV模块，其中电池被间隙分开。 每个电池都包含并联连接的小硅球二极管阵列（直径10-300微米）。 可以通过印刷将二极管和导体层图案化。 连续的金属基板在所有单元中支撑二极管和导体层。 将电介质基板层压到金属基板上。 然后通过在细胞周围的激光烧蚀形成沟槽，以切断金属基底以形成电隔离的PV电池。 然后执行金属化步骤以串联连接电池，以增加PV模块的电压输出。 用于每个电池的电隔离旁路二极管也通过开沟步骤形成。 金属化步骤以反平行关系连接旁路二极管及其相关联的电池。

公开(公告)号：US20160141471A1

公开(公告)日：2016-05-19

申请号：US15007126

申请日：2016-01-26

Applicant: Nthdegree Technologies Worldwide Inc.

Inventor： William Johnstone Ray ,  Mark David Lowenthal ,  Lixin Zheng

IPC: H01L33/56 ,  H01L33/40 ,  H01L33/32 ,  H01L33/42 ,  H01L25/075 ,  H01L33/06

CPC classification number: H01L33/56 ,  H01L25/0753 ,  H01L33/06 ,  H01L33/32 ,  H01L33/405 ,  H01L33/42 ,  H01L33/486 ,  H01L33/62 ,  H01L2924/0002 ,  H01L2933/0016 ,  H01L2933/0066 ,  H01L2924/00 ,  H01L2924/0001

Abstract: A flexible light sheet includes a bottom conductor layer overlying a flexible substrate. An array of vertical light emitting diodes (VLEDs) is printed as an ink over the bottom conductor layer so that bottom electrodes of the VLEDs electrically contact the bottom conductor layer. A top electrode of the VLEDs is formed of a first transparent conductor layer, and a temporary hydrophobic layer is formed over the first transparent conductor layer. A dielectric material is deposited between the VLEDs but is automatically de-wetted off the hydrophobic layer. The hydrophobic layer is then removed, and a second transparent conductor layer is deposited to electrically contact the top electrode of the VLEDs. The VLEDs can be made less than 10 microns in diameter since no top metal bump electrode is used. The VLEDs are illuminated by a voltage differential between the bottom conductor layer and the second transparent conductor layer.

公开(公告)号：US20160086741A1

公开(公告)日：2016-03-24

申请号：US14958254

申请日：2015-12-03

Applicant: NthDegree Technologies Worldwide Inc.

Inventor： Mark David Lowenthal ,  William Johnstone Ray ,  Neil O. Shotton ,  Vera Nicholaevna Lockett ,  Theodore I. Kamins ,  Thomas William Clinton

IPC: H01G11/36 ,  H01G11/58 ,  H01G11/26

CPC classification number: H01G11/36 ,  B82Y25/00 ,  B82Y30/00 ,  B82Y40/00 ,  H01F1/0045 ,  H01G9/058 ,  H01G11/26 ,  H01G11/28 ,  H01G11/48 ,  H01G11/58 ,  H01G11/84 ,  H01G11/86 ,  Y02E60/13 ,  Y10T156/10

Abstract: Multilayer carbon nanotube capacitors, and methods and printable compositions for manufacturing multilayer carbon nanotubes (CNTs) are disclosed. A first capacitor embodiment includes: a first conductor; a plurality of fixed CNTs in an ionic liquid, each fixed CNT comprising a magnetic catalyst nanoparticle coupled to a carbon nanotube and further coupled to the first conductor; and a first plurality of free CNTs dispersed and moveable in the ionic liquid. Another capacitor embodiment includes: a first conductor; a conductive nanomesh coupled to the first conductor; a first plurality of fixed CNTs in an ionic liquid and further coupled to the conductive nanomesh; and a plurality of free CNTs dispersed and moveable in the ionic liquid. Various methods of printing the CNTs and other structures, and methods of aligning and moving the CNTs using applied electric and magnetic fields, are also disclosed.

Abstract translation: 公开了多层碳纳米管电容器，以及用于制造多层碳纳米管（CNT）的方法和可印刷组合物。 第一电容器实施例包括：第一导体; 在离子液体中的多个固定的CNT，每个固定的CNT包含耦合到碳纳米管并进一步耦合到第一导体的磁性催化剂纳米颗粒; 以及在离子液体中分散和移动的第一多个游离CNT。 另一电容器实施例包括：第一导体; 耦合到第一导体的导电纳米片; 离子液体中的第一多个固定CNT并进一步与导电纳米颗粒结合; 以及在离子液体中分散和移动的多个游离CNT。 还公开了CNT和其他结构的各种印刷方法，以及使用施加的电场和磁场对准和移动CNT的方法。

公开(公告)号：US20150366033A1

公开(公告)日：2015-12-17

申请号：US14831351

申请日：2015-08-20

Applicant: NthDegree Technologies Worldwide Inc.

Inventor： Mark David Lowenthal ,  William Johnstone Ray ,  Peter Michael Bray ,  David R. Bowden

IPC: H05B37/02 ,  A47F3/00 ,  G09F13/00

CPC classification number: G09F9/37 ,  A47F3/001 ,  G09F13/00 ,  G09G3/14 ,  G09G2330/028 ,  H01F38/14 ,  H02J5/005 ,  H02J7/025 ,  H02J50/12 ,  H05B33/0815 ,  H05B37/0209 ,  H05B37/0227 ,  H05B41/245

Abstract: An exemplary system comprises a power regulator and an emitting apparatus. The emitting apparatus is typically attached to or integrated with a display object, such as a merchandise package or container. A support structure, such as a point of purchase display, typically contains or supports one or more power regulators and display objects. The power regulator comprises a controller and a primary inductor, and the controller is adapted to provide a voltage or current to the primary inductor to generate a first primary inductor voltage. The emitting apparatus comprises an illumination source and a secondary inductor coupled to the illumination source. The illumination source is adapted to emit visible light when the power regulator is in an on state and when the secondary inductor is within a predetermined distance of the primary inductor. In exemplary embodiments, the first and second inductors are substantially planar.

公开(公告)号：US20150276194A1

公开(公告)日：2015-10-01

申请号：US14732758

申请日：2015-06-07

Applicant: NthDegree Technologies Worldwide Inc.

Inventor： Mark David Lowenthal ,  William Johnstone Ray ,  Neil O. Shotton ,  Richard A. Blanchard ,  Brad Oraw ,  Mark Allan Lewandowski ,  Jeffrey Baldridge ,  Eric Anthony Perozziello

IPC: F21V23/06 ,  F21V9/16 ,  F21K99/00 ,  F21V7/00 ,  F21V5/04

CPC classification number: F21V23/06 ,  F21K9/232 ,  F21K9/27 ,  F21K9/275 ,  F21K9/90 ,  F21V3/049 ,  F21V5/048 ,  F21V7/0066 ,  F21V19/0005 ,  F21V23/003 ,  F21V23/04 ,  F21Y2101/00 ,  F21Y2107/20 ,  F21Y2115/10 ,  H01L24/24 ,  H01L24/95 ,  H01L25/048 ,  H01L25/0753 ,  H01L27/153 ,  H01L33/06 ,  H01L33/20 ,  H01L33/22 ,  H01L33/24 ,  H01L33/32 ,  H01L33/38 ,  H01L33/382 ,  H01L33/42 ,  H01L33/483 ,  H01L33/486 ,  H01L33/50 ,  H01L33/58 ,  H01L33/62 ,  H01L51/52 ,  H01L51/5203 ,  H01L51/56 ,  H01L2224/24137 ,  H01L2224/32225 ,  H01L2224/73267 ,  H01L2224/95101 ,  H01L2924/0002 ,  H01L2924/09701 ,  H01L2924/12041 ,  H01L2924/12042 ,  H01L2924/13033 ,  H01L2924/13034 ,  H01L2924/1305 ,  H01L2924/1306 ,  H01L2924/13062 ,  H01L2924/13091 ,  H01L2924/14 ,  H01L2924/00 ,  H01L2924/00014

Abstract: An exemplary printable composition of a liquid or gel suspension of diodes comprises a plurality of diodes, a first solvent and/or a viscosity modifier. An exemplary apparatus comprises: a plurality of diodes; at least a trace amount of a first solvent; and a polymeric or resin film at least partially surrounding each diode of the plurality of diodes. Various exemplary diodes have a lateral dimension between about 10 to 50 microns and about 5 to 25 microns in height. Other embodiments may also include a plurality of substantially chemically inert particles having a range of sizes between about 10 to about 50 microns.

公开(公告)号：US20150167949A1

公开(公告)日：2015-06-18

申请号：US14630266

申请日：2015-02-24

Applicant: NthDegree Technologies Worldwide Inc.

Inventor： Mark David Lowenthal ,  William Johnstone Ray ,  Neil O. Shotton ,  Richard A. Blanchard ,  Brad Oraw ,  Mark Allan Lewandowski ,  Jeffrey Baldridge ,  Eric Anthony Perozziello

IPC: F21V23/06 ,  H01L33/50 ,  F21V7/00 ,  F21K99/00

CPC classification number: F21V23/06 ,  F21K9/232 ,  F21K9/27 ,  F21V3/049 ,  F21V3/06 ,  F21V5/048 ,  F21V7/0066 ,  F21V9/30 ,  F21V19/0005 ,  F21V23/003 ,  F21V23/04 ,  F21Y2101/00 ,  F21Y2107/20 ,  F21Y2115/10 ,  H01L24/24 ,  H01L24/95 ,  H01L25/048 ,  H01L25/0753 ,  H01L27/153 ,  H01L33/06 ,  H01L33/20 ,  H01L33/22 ,  H01L33/24 ,  H01L33/32 ,  H01L33/38 ,  H01L33/382 ,  H01L33/42 ,  H01L33/483 ,  H01L33/486 ,  H01L33/50 ,  H01L33/58 ,  H01L33/62 ,  H01L51/52 ,  H01L51/5203 ,  H01L51/56 ,  H01L2224/24137 ,  H01L2224/32225 ,  H01L2224/73267 ,  H01L2224/95101 ,  H01L2924/0002 ,  H01L2924/09701 ,  H01L2924/12041 ,  H01L2924/12042 ,  H01L2924/13033 ,  H01L2924/13034 ,  H01L2924/1305 ,  H01L2924/1306 ,  H01L2924/13062 ,  H01L2924/13091 ,  H01L2924/14 ,  H01L2924/00 ,  H01L2924/00014

Abstract: An exemplary printable composition of a liquid or gel suspension of diodes comprises a plurality of diodes, a first solvent and/or a viscosity modifier. An exemplary apparatus comprises: a plurality of diodes; at least a trace amount of a first solvent; and a polymeric or resin film at least partially surrounding each diode of the plurality of diodes. Various exemplary diodes have a lateral dimension between about 10 to 50 microns and about 5 to 25 microns in height. Other embodiments may also include a plurality of substantially chemically inert particles having a range of sizes between about 10 to about 50 microns.

公开(公告)号：US20150069429A1

公开(公告)日：2015-03-12

申请号：US14542568

申请日：2014-11-15

Applicant: NthDegree Technologies Worldwide Inc.

Inventor： William Johnstone Ray ,  Mark David Lowenthal

IPC: H01L25/075 ,  H01L33/50 ,  H01L33/54 ,  H01L33/62

CPC classification number: H01L25/0753 ,  H01L27/3281 ,  H01L33/507 ,  H01L33/54 ,  H01L33/62 ,  H01L51/52 ,  H01L51/56 ,  H01L2924/0002 ,  H01L2933/0025 ,  H01L2933/0041 ,  H01L2933/005 ,  H01L2933/0066 ,  H01L2924/00

Abstract: The present invention provides a method of manufacturing an electronic display. The exemplary method includes depositing a first conductive medium within a plurality of cavities of a substrate to form a plurality of first conductors. A plurality of electronic components in a suspending medium are then deposited within the plurality of cavities, and the plurality of electronic components are oriented using an applied field, followed by a bonding of the plurality of electronic components to the plurality of first conductors. A second, transmissive conductive medium is then deposited and bonded to the plurality of electronic components.

Abstract translation: 本发明提供一种制造电子显示器的方法。 示例性方法包括在衬底的多个空腔内沉积第一导电介质以形成多个第一导体。 然后将悬挂介质中的多个电子部件沉积在多个空腔内，并且使用施加的场来定向多个电子部件，随后将多个电子部件接合到多个第一导体。 然后将第二透射导电介质沉积并结合到多个电子部件。

公开(公告)号：US20140261674A1

公开(公告)日：2014-09-18

申请号：US14214559

申请日：2014-03-14

Applicant: Nthdegree Technologies Worldwide Inc.

Inventor： Tricia Youngbull ,  Bradley Steven Oraw ,  William Johnstone Ray

IPC: H01L31/18 ,  H01L31/0352

CPC classification number: H01L31/1824 ,  H01L27/1421 ,  H01L31/035281 ,  H01L31/03529 ,  H01L31/0443 ,  H01L31/046 ,  H01L31/0463 ,  H01L31/0465 ,  H01L31/18 ,  H01L31/188 ,  Y02E10/50

Abstract: A PV module is formed having an array of PV cells, where the cells are separated by gaps. Each cell contains an array of small silicon sphere diodes (10-300 microns in diameter) connected in parallel. The diodes and conductor layers may be patterned by printing. A continuous metal substrate supports the diodes and conductor layers in all the cells. A dielectric substrate is laminated to the metal substrate. Trenches are then formed by laser ablation around the cells to sever the metal substrate to form electrically isolated PV cells. A metallization step is then performed to connect the cells in series to increase the voltage output of the PV module. An electrically isolated bypass diode for each cell is also formed by the trenching step. The metallization step connects the bypass diode and its associated cell in a reverse-parallel relationship.

Abstract translation: 形成具有PV电池阵列的PV模块，其中电池被间隙分开。 每个电池都包含并联连接的小硅球二极管阵列（直径10-300微米）。 可以通过印刷将二极管和导体层图案化。 连续的金属基板在所有单元中支撑二极管和导体层。 将电介质基板层压到金属基板上。 然后通过在细胞周围的激光烧蚀形成沟槽，以切断金属基底以形成电隔离的PV电池。 然后执行金属化步骤以串联连接电池，以增加PV模块的电压输出。 用于每个电池的电隔离旁路二极管也通过开沟步骤形成。 金属化步骤以反平行关系连接旁路二极管及其相关联的电池。

公开(公告)号：US20140139975A1

公开(公告)日：2014-05-22

申请号：US14161963

申请日：2014-01-23

Applicant: NthDegree Technologies Worldwide Inc.

Inventor： Mark David Lowenthal ,  William Johnstone Ray ,  Neil O. Shotton ,  Vera Nicholaevna Lockett ,  Theodore I. Kamins ,  Thomas William Clinton

IPC: H01G11/58

CPC classification number: H01G11/36 ,  B82Y25/00 ,  B82Y30/00 ,  B82Y40/00 ,  H01F1/0045 ,  H01G9/058 ,  H01G11/26 ,  H01G11/28 ,  H01G11/48 ,  H01G11/58 ,  H01G11/84 ,  H01G11/86 ,  Y02E60/13 ,  Y10T156/10

Abstract: Multilayer carbon nanotube capacitors, and methods and printable compositions for manufacturing multilayer carbon nanotubes (CNTs) are disclosed. A first capacitor embodiment includes: a first conductor; a plurality of fixed CNTs in an ionic liquid, each fixed CNT comprising a magnetic catalyst nanoparticle coupled to a carbon nanotube and further coupled to the first conductor; and a first plurality of free CNTs dispersed and moveable in the ionic liquid. Another capacitor embodiment includes: a first conductor; a conductive nanomesh coupled to the first conductor; a first plurality of fixed CNTs in an ionic liquid and further coupled to the conductive nanomesh; and a plurality of free CNTs dispersed and moveable in the ionic liquid. Various methods of printing the CNTs and other structures, and methods of aligning and moving the CNTs using applied electric and magnetic fields, are also disclosed.

Abstract translation: 公开了多层碳纳米管电容器，以及用于制造多层碳纳米管（CNT）的方法和可印刷组合物。 第一电容器实施例包括：第一导体; 在离子液体中的多个固定的CNT，每个固定的CNT包含耦合到碳纳米管并进一步耦合到第一导体的磁性催化剂纳米颗粒; 以及在离子液体中分散和移动的第一多个游离CNT。 另一电容器实施例包括：第一导体; 耦合到第一导体的导电纳米片; 离子液体中的第一多个固定CNT并进一步与导电纳米颗粒结合; 以及在离子液体中分散和移动的多个游离CNT。 还公开了CNT和其他结构的各种印刷方法，以及使用施加的电场和磁场对准和移动CNT的方法。