Showing papers on "Substrate (printing) published in 2014"

Display device and method of manufacturing the same

Abstract: A display device and a manufacturing method thereof The display device includes a substrate including at least one plastic layer; and a display layer on the substrate and including a plurality of signal lines and a plurality of pixels The substrate includes at least one antistatic layer

3D printed quantum dot light-emitting diodes.

Abstract: Developing the ability to 3D print various classes of materials possessing distinct properties could enable the freeform generation of active electronics in unique functional, interwoven architectures. Achieving seamless integration of diverse materials with 3D printing is a significant challenge that requires overcoming discrepancies in material properties in addition to ensuring that all the materials are compatible with the 3D printing process. To date, 3D printing has been limited to specific plastics, passive conductors, and a few biological materials. Here, we show that diverse classes of materials can be 3D printed and fully integrated into device components with active properties. Specifically, we demonstrate the seamless interweaving of five different materials, including (1) emissive semiconducting inorganic nanoparticles, (2) an elastomeric matrix, (3) organic polymers as charge transport layers, (4) solid and liquid metal leads, and (5) a UV-adhesive transparent substrate layer. As a proof of concept for demonstrating the integrated functionality of these materials, we 3D printed quantum dot-based light-emitting diodes (QD-LEDs) that exhibit pure and tunable color emission properties. By further incorporating the 3D scanning of surface topologies, we demonstrate the ability to conformally print devices onto curvilinear surfaces, such as contact lenses. Finally, we show that novel architectures that are not easily accessed using standard microfabrication techniques can be constructed, by 3D printing a 2 × 2 × 2 cube of encapsulated LEDs, in which every component of the cube and electronics are 3D printed. Overall, these results suggest that 3D printing is more versatile than has been demonstrated to date and is capable of integrating many distinct classes of materials.

Apparatus, systems and methods for determining tissue oxygenation

Abstract: A surgical instrument may be configured to sense a light re-emitting probe to resolve tissue oxygenation, the surgical instrument including: an optical emitter configured to excite the light re-emitting probe within an absorption band of the light re-emitting probe; an optical detector configured to receive the re-emitted light from the probe; and a signal processor configured to resolve the tissue oxygenation based on the received light. The surgical instrument can be a surgical stapler anvil or a flexible substrate having a tissue interfacing surface. Further, a monitoring device may be configured to map oxygenation of a tissue containing a light re-emitting probe, the monitoring device including: an optical emitter configured to excite the light re-emitting probe; at least one optical detector configured to receive the re-emitted light from the probe; and a signal processor that is configured to resolve the tissue oxygenation at multiple points to generate an oxygen map.

Organic light emitting display device and method of manufacturing the same

Abstract: An organic light emitting display (OLED) device includes a substrate, a plurality of first electrodes, a plurality of light emitting layers, a second electrode, a power supply line, a third electrode, and an encapsulation member The third electrode that is formed on the power supply line and the second electrode that is formed on the light emitting layers extend to a contact region that is in a peripheral region of the substrate The third electrode and the second electrodes have an uneven pattern in the contact region

Organic light emitting diode display device

Abstract: Disclosed is an organic light emitting diode display device having improved light extraction efficiency and display quality. The organic light emitting diode display device includes a plurality of sub-pixels including organic light emitting cells arranged in an inner side of a substrate, a groove formed between neighboring sub-pixels, and a light extraction pattern formed over an outer surface of the substrate.

Testing of semiconductor chips with microbumps

Abstract: A package includes a semiconductor chip. The semiconductor chip includes a test pad, and a plurality of microbump pads, wherein each microbump pad of the plurality of microbump pads is electrically connected to the test pad. The package further includes a substrate; and a plurality of microbumps configured to electrically connect the semiconductor chip to the substrate, wherein each microbump of the plurality of microbumps is electrically connected to a corresponding microbump pad of the plurality of microbump pads. The package further includes a package substrate, wherein the package substrate comprises a bump pad, wherein an area of the bump pad is greater than a combined area of the test pad and the plurality of microbump pads. The package further includes a bump configured to electrically connect the substrate to the package substrate.

Methods of forming integrated circuit package

Abstract: A method for forming integrated circuit packages is presented. A first plurality of first tier stacks are mounted to the substrate, wherein the substrate has one or more contact pads corresponding to each of the first tier stacks and has one or more probing pads associated with each of the first tier stacks. Each of the first tier stacks is electrically tested to identify known good first tier stacks and known bad first tier stacks. A first plurality of stacking substrates are mounted to the known good first tier stacks, thereby forming a plurality of second tier stacks. Each of the second tier stacks is electrically tested to identify known good second tier stacks and known bad second tier stacks.

Rearview mirror assembly

Abstract: A rearview mirror assembly for a vehicle includes a mirror reflective element having at least one glass substrate and a mirror reflector established at a surface of said at least one glass substrate The mirror assembly includes a display element disposed at the rear of the mirror reflective element and operable to emit light that is viewable through the mirror reflective element The display element includes a printable light emitting diode The mirror assembly may include at least one of (a) a printable electrically conductive layer at a surface of the at least one glass substrate, (b) a printable heater pad established at a rear surface of the at least one glass substrate, (c) a printable touch sensor and (d) a moldable light emitting diode element

Unexplained transport resistances for low-loaded fuel-cell catalyst layers

Abstract: For next-generation polymer-electrolyte fuel cells, material solutions are being sought to decrease the cost of the cell components, and, in particular, the amount of catalyst, without sacrificing performance and lifetime. However, as recently shown, this cannot be achieved in practice due most likely to limitations caused by the ionomer thin-film surrounding the catalyst sites, where confinement and substrate interactions dominate and result in increased mass-transport limitations. Mitigation of this issue is paramount to the future commercial viability of polymer-electrolyte fuel cells.

Inkjet printing of conductive inks with high lateral resolution on omniphobic "R(F) paper" for paper-based electronics and MEMS.

Abstract: The use of omniphobic "fluoroalkylated paper" as a substrate for inkjet printing of aqueous inks that are the precursors of electrically conductive patterns is described. By controlling the surface chemistry of the paper, it is possible to print high resolution, conductive patterns that remain conductive after folding and exposure to common solvents.

All-printed flexible organic transistors enabled by surface tension-guided blade coating.

Abstract: A combination of surface energy-guided blade coating and inkjet printing is used to fabricate an all-printed high performance, high yield, and low variability organic thin film transistor (OTFT) array on a plastic substrate. Functional inks and printing processes were optimized to yield self-assembled homogenous thin films in every layer of the OTFT stack. Specifically, we investigated the effect of capillary number, semiconductor ink composition (small molecule-polymer ratio), and additive high boiling point solvent concentrations on film fidelity, pattern design, device performance and yields.

Organic light emitting diode display

Abstract: An organic light emitting diode (OLED) display includes a flexible substrate, a barrier layer disposed on the flexible substrate, and an organic light emitting diode disposed on the barrier layer. The barrier layer includes a plurality of metal layers and a plurality of insulation layers in which the metal layers and the insulation layers are alternatively stacked with each other on the flexible substrate.

FinFET Body Contact and Method of Making Same

Abstract: A semiconductor device may include body contacts on a finFET device for ESD protection. The semiconductor device comprises a semiconductor fin, a source/drain region and a body contact. The source/drain region and the body contact are in the semiconductor fin. A portion of the fin is laterally between the source/drain region and the body contact. The semiconductor fin is on a substrate.

Inkjet printing of flexible high-performance carbon nanotube transparent conductive films by "coffee ring effect".

Abstract: Transparent and flexible conductors are a major component in many modern optoelectronic devices, such as touch screens for smart phones, displays, and solar cells. Carbon nanotubes (CNTs) offer a good alternative to commonly used conductive materials, such as metal oxides (e.g. ITO) for flexible electronics. The production of transparent conductive patterns, and arrays composed of connected CNT “coffee rings” on a flexible substrate poly(ethylene terephthalate), has been reported. Direct patterning is achieved by inkjet printing of an aqueous dispersion of CNTs, which self-assemble at the rim of evaporating droplets. After post-printing treatment with hot nitric acid, the obtained TCFs are characterized by a sheet resistance of 156 Ω sq−1 and transparency of 81% (at 600 nm), which are the best reported values obtained by inkjet printing of conductive CNTs. This makes such films very promising as transparent conductors for various electronic devices, as demonstrated by using an electroluminescent device.

Semiconductor device and method of fabricating the same

Abstract: Provided are a semiconductor device and a method of fabricating the same. The semiconductor device includes a substrate, a connection member formed on a top surface of the substrate, a semiconductor package mounted on the connection member, an encapsulation member formed to fill a space between a top portion of the substrate and a bottom portion of the semiconductor package, and a shielding material formed to cover the semiconductor package and the encapsulation member.

Organic light-emitting display apparatus and method of manufacturing the same

Abstract: An organic light-emitting apparatus includes a lower substrate (110) comprising a display area (DA) and a peripheral area (PA) around the display area; a first insulating layer (120, 140, 160, IL) on the display area and the peripheral area of the lower substrate, wherein a plurality of penetration holes (ILH1, ILH2) are formed in the first insulating layer in the peripheral area; an upper substrate (300) on the lower substrate; and a sealant (400 in the plurality of penetration holes bonding the lower substrate to the upper substrate

Methods of selective layer deposition

Abstract: Provided are methods for selective deposition Certain methods describe providing a first substrate surface; providing a second substrate surface; depositing a first layer of film over the first and second substrate surfaces, wherein the deposition has an incubation delay over the second substrate surface such that the first layer of film over the first substrate surface is thicker than the first layer of film deposited over the second substrate surface; and etching the first layer of film over the first and second substrate surfaces, wherein the first layer of film over the second substrate surface is at least substantially removed, but the first layer of film over the first substrate is only partially removed

Plasma processing apparatus and plasma processing method

Abstract: Provided is a plasma processing apparatus, which includes a table unit installed within a processing vessel and configured to receive a substrate thereon, a gas supply unit configured to supply a process gas into the processing vessel, a plasma generating unit configured to turn the process gas to plasma, a magnetic field forming mechanism installed at a lateral side of the table unit and configured to form magnetic fields in a processing atmosphere in order to move electrons existing in the plasma of the process gas along a surface of the substrate; and an exhaust mechanism configured to exhaust gas from the interior of the processing vessel. The magnetic fields are opened at at-least one point in a peripheral edge portion of the substrate such that a loop of magnetic flux lines surrounding the peripheral edge portion of the substrate is not formed.

Display module and system applications

Abstract: A display module and system applications including a display module are described. The display module may include a display substrate including a front surface, a back surface, and a display area on the front surface. A plurality of interconnects extend through the display substrate from the front surface to the back surface. An array of light emitting diodes (LEDs) are in the display area and electrically connected with the plurality of interconnects, and one or more driver circuits are on the back surface of the display substrate. Exemplary system applications include wearable, rollable, and foldable displays.

Methods of depositing a metal alloy film

Abstract: Provided are methods of depositing films comprising exposing at least a portion of a substrate to a metal precursor to provide a first metal on the substrate and an organometallic reducing agent to deposit a second metal on the substrate to form a mixture or alloy of the first metal and the second metal. Exposure to the metal precursor and organometallic reducing agent can be in either order or simultaneously.

Substrate treatment method and substrate treatment apparatus

Abstract: A substrate treatment apparatus which can more efficiently regenerate phosphoric acid which is able to be returned to etching treatment along with such etching treatment as much as possible without using a large facility, that is a substrate treatment apparatus which treats a silicon substrate W on which a nitride film is formed by a liquid etchant which contains phosphoric acid, which comprises an etching treatment unit (the spin treatment unit 30 ) which gives a suitable quantity of liquid, etchant to each substrate which is fed one at a time so as to etch the substrate and remove the nitride film, a phosphoric acid regenerating unit (the spin treatment unit 30 ) which mixes liquid etchant used for treatment of one substrate and a suitable quantity of liquid hydrofluoric acid for the amount of the used liquid etchant under a predetermined temperature environment to regenerate the phosphoric acid, and a phosphoric acid recovery unit (the pump 38, phosphoric acid recovery tank 50, and pump 52 ) which returns the phosphoric acid which was obtained by the phosphoric acid regenerating unit to the liquid etchant to be used at the etching treatment unit.

Substrate embedded horn antenna having selection capability of vertical and horizontal radiation pattern

Abstract: Substrate embedded horn antenna includes a dielectric, metal patterns, metal vias and a ground plate. The metal patterns are embedded by being stacked in dielectric. Metal patterns are hollow rectangle types or hollow circle types. Metal vias connect layers of metal patterns by being embedded between layers of metal patterns. Ground plate is formed in an upper side of dielectric. Metal patterns form waveguide structure by being stacked in radial shape. Waveguide structure propagates electromagnetic wave by focusing electromagnetic wave. Embedded horn antenna capable of selectively using vertical radiation and horizontal radiation may be implemented using the via and metal pattern in dielectric substrate. Embedded horn antenna may be implemented in small size with high gain. Vertical embedded horn antenna and horizontal embedded horn antenna may be implemented in a substrate. Method of manufacturing embedded horn antenna capable of selectively using vertical radiation and horizontal radiation may be provided.

Method for Performing Uniform Processing in Gas System-Sharing Multiple Reaction Chambers

Abstract: A method for performing uniform processing in multiple reaction chambers includes (a) conducting a cycle constituted by steps in each reaction chamber according to the order of the reaction chambers at which the steps are conducted; and then (b) conducting the steps in each reaction chamber after changing the immediately prior order of the reaction chambers at which the steps are conducted; and then (c) repeating process (b) until a target treatment is complete at the multiple reaction chambers. The target treatment conducted on a substrate in each reaction chamber is the same.

Substrate support apparatus having reduced substrate particle generation

Abstract: Embodiments of apparatus for supporting a substrate are disclosed herein In some embodiments, an apparatus for supporting a substrate includes: a support surface; and a plurality of substrate contact elements protruding from the support surface, wherein the plurality of substrate contact elements are formed of a material having a hardness less than or equal to a hardness of silicon, having a low adhesion, having a coefficient of static friction large enough to prevent sliding, having a surface roughness less than or equal to 10 Ra, and that is electrically conductive

Display apparatus and method of manufacturing the same

Abstract: A display apparatus includes a first substrate including a display region and a peripheral region, where the peripheral region surrounds the display region, a second substrate disposed opposite to the first substrate, a resin layer disposed between the first substrate and the second substrate, where the resin layer covers a surface of the second substrate, a first member disposed at a bottom surface of the second substrate corresponding to the peripheral region of the first substrate, where the first member covers a portion of the resin layer, and a second member which surrounds the first substrate, the second substrate, the first member and the resin layer, where the second member is disposed at opposing side portions of the second substrate, the second member is spaced apart from the first substrate, and the second member surrounds opposing side portions of the resin layer.

Organic light-emitting display apparatus and method of manufacturing the same

Abstract: An organic light-emitting display apparatus includes a substrate, a first electrode disposed on the substrate, a pixel-defining layer which is disposed on the substrate and the first electrode and in which an opening which exposes a central part of the first electrode is defined, an interlayer which is disposed on the first electrode and comprises an organic light-emitting layer; and a second electrode disposed on the interlayer, where a sidewall of the opening comprises a bumpy structure in which a plurality of bumps is disposed.

Removable substrate tray and assembly and reactor including same

Abstract: A substrate tray, a susceptor assembly including a substrate tray, and a reactor including a substrate tray and/or susceptor assembly are disclosed. The substrate tray is configured to retain a substrate during processing and can be formed of a substantially non-reactive material. The substrate tray can be received by a susceptor, formed of another material, to form the susceptor assembly.

Compliant robot blade for defect reduction

Abstract: Embodiments of substrate transfer robot blades to engage and support a substrate during transfer are provided herein. In some embodiments, a substrate transfer robot may include a blade body having a blade support surface; and a plurality of compliant pads, each comprising a contact surface and an opposite bottom surface supported by the body and arranged to support a substrate when disposed on the substrate transfer robot blade.

FinFETs and methods of forming FinFETs

Abstract: An embodiment is a method including forming a fin on a substrate, forming a first doped region in a top portion of the fin, the first doped region having a first dopant concentration, and forming a second doped region in a middle and bottom portion of the fin, the second doped region having a second dopant concentration, the second dopant concentration being less than the first dopant concentration.