A seed layer is formed on a substrate using a first biological agent. The seed layer may comprise densified nanoparticles which are bound to the biological agent. The seed layer is then used for a deposition of a metal layer, such as a barrier layer, an interconnect layer, a cap layer and/or a bus line for a solid state device.
Systems, Devices, And Methods For Controlling Electrical And Optical Properties Of Transparent Conductors
Systems, devices, and methods for designing and/or manufacturing transparent conductors. A system is operable to evaluate optical and electrical manufacturing criteria for a transparent conductor. The system includes a database including stored reference transparent conductor data, and a controller subsystem configured to compare input acceptance manufacturing criteria for a transparent conductor to stored reference transparent conductor data.
Prevention Of Quantum Dot Quenching On Metal Surfaces
Cheng-I Wang - Foster City CA, US Haixia Dai - Mountain View CA, US Manfred Heidecker - Mountain View CA, US
Assignee:
Siluria Technologies, Inc. - San Francisco CA
International Classification:
C09K 11/08 C09K 11/02
US Classification:
2523016S, 25230136, 436525
Abstract:
A formulation comprises quantum dots and a quenching-preventive agent in a carrier material. The quenching-preventive agent is a metal chelating agents, a corrosion inhibitor, or a combination thereof. The formulation can be applied to a metal substrate, without experiencing metal ion induced fluorescence quenching.
Nanowire-Based Transparent Conductors And Applications Thereof
Pierre-Marc Allemand - San Jose CA, US Haixia Dai - Mountain View CA, US Shuo Na - San Jose CA, US Hash Pakbaz - Hayward CA, US Florian Pschenitzka - San Francisco CA, US Xina Quan - Saratoga CA, US Jelena Sepa - Sunnyvale CA, US Michael A. Spaid - Mountain View CA, US Jeffrey Wolk - Half Moon Bay CA, US
Assignee:
Cambrios Technologies Corporation - Sunnyvale CA
International Classification:
G02F 1/13
US Classification:
349187
Abstract:
A transparent conductor including a conductive layer coated on a substrate is described. More specifically, the conductive layer comprises a network of nanowires that may be embedded in a matrix. The conductive layer is optically clear, patternable and is suitable as a transparent electrode in visual display devices such as touch screens, liquid crystal displays, plasma display panels and the like.
Jonathan S. Alden - Mountain View CA, US Haixia Dai - Mountain View CA, US Michael R. Knapp - Emerald Hills CA, US Shuo Na - San Jose CA, US Hash Pakbaz - Hayward CA, US Florian Pschenitzka - San Francisco CA, US Xina Quan - Saratoga CA, US Michael A. Spaid - Mountain View CA, US Adrian Winoto - San Francisco CA, US Jeffrey Wolk - Half Moon Bay CA, US
Assignee:
Cambrios Technologies Corporation - Sunnyvale CA
International Classification:
H01L 23/48
US Classification:
257741
Abstract:
A transparent conductor including a conductive layer coated on a substrate is described. More specifically, the conductive layer comprises a network of nanowires which may be embedded in a matrix. The conductive layer is optically transparent and flexible. It can be coated or laminated onto a variety of substrates, including flexible and rigid substrates.
Nanowire-Based Transparent Conductors And Applications Thereof
Pierre-Marc Allemand - San Jose CA, US Haixia Dai - Mountain View CA, US Shuo Na - San Jose CA, US Hash Pakbaz - Hayward CA, US Florian Pschenitzka - San Francisco CA, US Xina Quan - Saratoga CA, US Jelena Sepa - Sunnyvale CA, US Michael A. Spaid - Mountain View CA, US
Assignee:
Cambrios Technologies Corporation - Sunnyvale CA
International Classification:
G02F 1/1335
US Classification:
349 12
Abstract:
A transparent conductor including a conductive layer coated on a substrate is described. More specifically, the conductive layer comprises a network of nanowires that may be embedded in a matrix. The conductive layer is optically clear, patternable and is suitable as a transparent electrode in visual display devices such as touch screens, liquid crystal displays, plasma display panels and the like.
Nanowire-Based Transparent Conductors And Applications Thereof
Pierre-Marc Allemand - San Jose CA, US Haixia Dai - San Jose CA, US Shuo Na - San Jose CA, US Hash Pakbaz - Bloomingdale IL, US Florian Pschenitzka - San Francisco CA, US Xina Quan - Saratoga CA, US Jelena Sepa - Mountain View CA, US Michael A. Spaid - Mountain View CA, US Jeffrey Wolk - Half Moon Bay CA, US
Assignee:
Cambrios Technologies Corporation - Sunnyvale CA
International Classification:
G02F 1/13
US Classification:
349187
Abstract:
A transparent conductor including a conductive layer coated on a substrate is described. More specifically, the conductive layer comprises a network of nanowires that may be embedded in a matrix. The conductive layer is optically clear, patternable and is suitable as a transparent electrode in visual display devices such as touch screens, liquid crystal displays, plasma display panels and the like.
Systems, Devices, And Methods For Controlling Electrical And Optical Properties Of Transparent Conductors
Systems, devices, and methods for designing and/or manufacturing transparent conductors. A system is operable to evaluate optical and electrical manufacturing criteria for a transparent conductor. The system includes a database including stored reference transparent conductor data, and a controller subsystem configured to compare input acceptance manufacturing criteria for a transparent conductor to stored reference transparent conductor data.