摘要:
The invention relates to an encapsulation process for an electronic component (2). The component (2) is connected to an electrical contact track composed of a metal layer (101).The process according to the invention comprises the following steps: deposition of a titanium nitride layer (102) directly on at least part of the electrical contact track (101); and deposition of an aluminium oxide layer (4) by atomic layer deposition, such that the encapsulation layer (4) directly covers the titanium nitride layer (102). The process according to the invention enables electrical contact through the encapsulation layer (4).The invention also relates to an electronic device obtained using such a process.
摘要:
The application relates to a vertical organic transistor having a layer structure on a substrate. The layer structure includes an electrode, a counter-electrode and an electronically active layer arrangement which is disposed between the electrode and the counter-electrode. The application further relates to a method for fabricating a vertical organic transistor and a circuit arrangement.
摘要:
A device that includes a component and an encapsulation arrangement for the encapsulation of the component with respect to moisture and/or oxygen, wherein the encapsulation arrangement has a first layer and thereabove a second layer on at least one surface of the component, the first layer and the second layer each comprise an inorganic material, and the second layer is arranged directly on the first layer.
摘要:
This invention generally relates to planarisation of a surface of a substrate. In an embodiment of planarising a surface region of a substrate, the substrate having a body on a portion of said surface region, the method comprises: modifying the wetability of a surface of said body with respect to a liquid planariser composition by providing a surface modifying layer such as a self-assembled monolayer thereon; and then depositing the liquid planariser composition on said substrate and said body such that the planariser composition wets said surface region, wherein said surface modifying layer determines a contact angle of said liquid planariser composition to said surface of said body such that the deposited liquid planariser composition is repelled from said surface of said body.
摘要:
Disclosed are an organic light emitting display that has a configuration excluding a polarizing plate and exhibits improved flexibility and visibility, and a method for manufacturing the same, the organic light emitting display includes a touch electrode array facing the organic light emitting diode on the second buffer layer, the touch electrode array including first and second touch electrodes intersecting each other and an exterior light shielding layer including at least a color filter layer, an adhesive layer formed between the organic light emitting diode and the touch electrode array.
摘要:
A device in accordance with one embodiment comprises component (1) and an encapsulation arrangement (2) for the encapsulation of the component (1) with respect to moisture and/or oxygen, wherein the encapsulation arrangement (2) has a first layer (21) and thereabove a second layer (22) on at least one surface (19) of the component (1), the first layer (21) and the second layer (22) each comprise an inorganic material, and the second layer (22) is arranged directly on the first layer (21).
摘要:
A photovoltaic structure having an electrode of a glass substrate coated with a high work function metal to which a film of a combination of a non-conjugated conductive polymer and an electron acceptor such as fullerene, carbon, iodine, or potassium iodide is applied. The structure has a second electrode of a low work function metal that has been coated on the glass substrate. This glass substrate with the low work function metal is applied to the film. Among the non-conjugated polymers are polyisoprene, poly(β-pinene), cis-polyisoprene, styrene-butadiene-rubber copolymer, polynobornene and polyalloocimene. When light strikes this photovoltaic structure it is capable of generating electric voltage greater than 100 mV for a light intensity of about 5 mW/cm2.
摘要:
Providing a dye-sensitized solar cell having high durability and thermal resistance, and preventing elution of a platinum group catalyst from a catalytic electrode: by surface-treating the catalytic electrode with (a) a specific sulfur material having a molecular weight of 32 to 10,000 containing a sulfur atom having an oxidation number of -2 to 0, (b) another specific sulfur material containing no sulfur atom having an oxidation number of -2 to 0, but containing a sulfur atom having an oxidation number of +1 to +4 [with the proviso that the sulfur material (b) is such a material that a surface of the surface-treated catalyst electrode has a photoelectron peak within a binding energy range of 161 to 165 eV in an X-ray photoelectron spectrum], or (c) a mixture of the sulfur materials (a) and (b); and/or by adding the sulfur material into the electrolyte layer.
摘要:
An organic EL display panel includes a substrate; an interlayer insulating layer on the substrate; first electrodes on the interlayer insulating layer to correspond to element formation regions in rows and columns; banks extending in columns to partition the regions in rows; organic light-emitting layers above the first electrodes, and each containing organic light-emitting material having light-emitting color differing between each two adjacent regions in rows; and second electrodes above the light-emitting layers, and being opposite in polarity to the first electrodes, wherein the interlayer insulating layer has first opening corresponding to interval between each two adjacent first electrodes in rows, the banks each have integrally formed buried part and main part, the buried part fills the interval and the first opening, and the main part is protrusion of the buried part and has recess on top thereof along with shapes of the interval and the first opening.
摘要:
An organic photodetector including a substrate, a first electrode, an insulation layer, an organic layer, and a second electrode is provided. The first electrode is disposed on the substrate. The insulation layer is disposed on the first electrode. The organic layer is disposed on the substrate and the insulation layer and covers a side surface of the insulation layer and a side surface of the first electrode. The second electrode is disposed on the organic layer and located above the insulation layer.