Patent application number | Description | Published |
20090043025 | COATING MATERIAL COMPOSITE AND COATED ARTICLE - It is aimed at providing a coating material composite capable of having a lower refractive index and keeping higher antiscratching property, antifouling property, chemical resistance, and anticrack property even when the coating material composite is used to form a coating on a malleable substrate such as plastic substrates and exposed to high temperatures upon formation of the coating and after formation of the coating. | 02-12-2009 |
20110221578 | WIRELESS IDENTIFICATION CARD - The wireless identification card ( | 09-15-2011 |
20120068171 | ORGANIC ELECTROLUMINESCENT ELEMENT - In an organic electroluminescent element, light extraction efficiency is enhanced. An organic electroluminescent element | 03-22-2012 |
20120119193 | PHOTOELECTRIC ELEMENT - A photoelectric element provided with an electron transport layer having excellent electron transport property and sufficiently wide reaction interface, and that has excellent conversion efficiency. | 05-17-2012 |
20120187387 | PHOTOELECTRIC ELEMENT - Disclosed is a photoelectric element having an excellent conversion efficiency and provided with a hole transporting layer that is endowed with excellent hole transporting properties and a sufficiently large reaction interface. | 07-26-2012 |
20120192762 | METHOD FOR PRODUCING FINE MESOPOROUS SILICA PARTICLES, FINE MESOPOROUS SILICA PARTICLES, LIQUID DISPERSION OF FINE MESOPOROUS SILICA PARTICLES, COMPOSITION CONTAINING FINE MESOPOROUS SILICA PARTICLES AND MOLDED ARTICLE CONTAINING FINE MESOPOROUS SILICA PARTICLES - Fine mesoporous silica particles are provided by which not only the functions of low reflectance (Low-n), low dielectric constant (Low-k) and low thermal conductivity but also improved strength of a molded article are achieved. The fine mesoporous silica particles are manufactured by a process including a surfactant composite fine silica particle preparation step and a mesoporous particle formation step. In the silica fine particle preparation step, a surfactant, water, an alkali and a hydrophobic part-containing additive including a hydrophobic part for increasing the volume of micelles are mixed with a silica source to thereby prepare surfactant composite fine silica particles. In the mesoporous particle formation step, the mixture is mixed with an acid and an organosilicon compound to thereby remove the surfactant and hydrophobic part-containing additive from the surfactant composite fine silica particles and provide the surface of each silica fine particle with an organic functional group. The fine mesoporous silica particles have mesopores inside each particle, and are modified on the surface with organic functional groups. | 08-02-2012 |
20130025683 | PHOTOELECTRIC ELEMENT - The present invention provides a photoelectric conversion element comprising: an electron transport layer which has an excellent electron transport property and a sufficient reaction interface, and having excellent conversion efficiency. In the present invention, a photoelectric conversion element comprises: a first electrode; a second electrode; a stack of an electron transport layer and hole transport layer, the stack being interposed between the first electrode and the second electrode; an electrolyte solution; and a conductive agent; the electron transport layer containing an organic compound having a redox moiety causing repetitive oxidation-reduction reactions, the electrolyte solution being selected to give stable reduction condition of the redox moiety, the organic compound and the electrolyte solution being cooperative to form a gel layer. Wherein the conductive agent is present within the gal layer and kept at least partly in contact with the first electrode. | 01-31-2013 |
20130119368 | ORGANIC EL DEVICE - An organic EL device includes a first substrate having electrical conductivity, an organic layer formed on the first substrate, an electrode layer formed on the organic layer, and a second substrate joined to the electrode layer by an adhesive layer. In a region of a peripheral portion of the first substrate, the organic layer is not formed, and a portion of the electrode layer is provided on the first substrate through an insulating layer so as to extend to an outer peripheral side of a region where the organic layer is present. The extended electrode layer is folded back together with the insulating layer to a side opposite to the second substrate, to constitute an electrode taking-out portion. | 05-16-2013 |
20130126853 | ORGANIC EL DEVICE - An organic EL device includes a first substrate including a cathode layer (a first electrode layer), an organic layer formed on the cathode layer, an anode layer (a second electrode layer) formed on the organic layer, and a second substrate joined to the anode layer by an adhesive layer. The anode layer is provided so as to extend to an outer peripheral side of a region where the organic layer is present, the second substrate and the adhesive layer are not present in a portion which faces a region at an outer peripheral side of the extended anode layer, and the cathode layer and the extended anode layer are exposed from the second substrate to constitute a cathode taking-out portion and an anode taking-out portion, respectively. | 05-23-2013 |
20130126854 | ORGANIC EL DEVICE - An organic EL device includes a first substrate including a cathode layer and a smoothing layer, an organic layer formed on the cathode layer, an anode layer formed on the organic layer, and a second substrate joined to the anode layer. In a region of a peripheral portion of the first substrate, the organic layer is not formed. The anode layer is provided on the cathode layer through an insulating layer in a portion of the region so as to extend to an outer peripheral side, the extended anode layer is folded back to a side opposite to the second substrate to constitute an anode taking-out portion, and a portion of the cathode layer of the first substrate is folded back to constitute a cathode taking-out portion. | 05-23-2013 |
20130145935 | ADSORPTION AND RELEASE DEVICE OF CARBON DIOXIDE - An object of the present invention is to provide a carbon dioxide adsorption and release device, which has high adsorptivity, and also consumes low energy upon adsorption and desorption. The carbon dioxide adsorption and release device is characterized by including a pair of electrodes (electrode | 06-13-2013 |
20130199614 | PHOTOELECTRIC ELEMENT, PROCESS FOR PRODUCING PHOTOELECTRIC ELEMENT, AND PHOTOSENSITIZER - A photoelectric element | 08-08-2013 |
20130240861 | ORGANIC ELECTROLUMINESCENCE ELEMENT - Providing an organic electroluminescence element that can reduce the unevenness of the brightness and can improve the external quantum efficiency. The organic electroluminescence element includes a substrate | 09-19-2013 |
20130285043 | PHOTOELECTRIC CONVERSION ELEMENT - A photoelectric conversion element having high photovoltaic conversion efficiency is provided. | 10-31-2013 |
20130306954 | PHOTOELECTRIC ELEMENT - Provided is a photoelectric element that includes an electron transport layer having excellent electron transport properties and a sufficiently large reaction interface and has low resistance loss and excellent conversion efficiency between light and electricity. The photoelectric element includes a first electrode | 11-21-2013 |
20130320324 | ORGANIC EL DEVICE AND METHOD OF MANUFACTURING ORGANIC EL DEVICE - An organic EL device includes: a first substrate having electrical conductivity; an organic layer formed on the first substrate; a second substrate having translucency; and an electrode layer formed on the second substrate. The electrode layer on the first substrate and the organic layer on the second substrate contact each other. The organic layer is not formed in the peripheral portion of the second substrate. In the region where the organic layer is not formed, a portion of the electrode layer is provided to extend, and the first substrate is not present to face the extended electrode layer, and the portion of the electrode layer is exposed to form an electrode portion. Thus, the electrode portion can be formed by a simple procedure in which, for example, the first substrate is removed, and the organic EL device can be efficiently manufactured. | 12-05-2013 |
20140014936 | ORGANIC THIN FILM AND ORGANIC ELECTROLUMINESCENT ELEMENT CONTAINING SAME IN LIGHT-EMITTING LAYER - In an organic thin film (a light emitting layer) of an organic EL element, an organic thin film having an emitting material which is made up of an organic polymer main backbone polymerized with a molecular chain, which emits light having a maximum value at a wavelength different from a wavelength at which an emission spectrum emitted by the main backbone itself has a maximum value, and nanosized particles which are mixed into the emitting material is used as the light emitting layer. According to the above configuration, the maximum values of the emission spectra of light emitted by the molecular chain and the main backbone of the emitting material can be increased. Moreover, the light which has the emission spectra having the plural maximum values can be generated without depending on the plural emitting materials, so that the light emitting layer can be manufactured easily. | 01-16-2014 |
20140021463 | ORGANIC ELECTROLUMINESCENCE ELEMENT - The organic electroluminescence element according to the present invention includes: a light-emitting layer; a first electrode layer on a first surface in a thickness direction of the light-emitting layer; a second electrode layer on a second surface in the thickness direction of the light-emitting layer; an electrically conductive layer; and an insulating layer. The light-emitting layer emits light when a predetermined voltage is applied between the first and second electrode layers. The second electrode layer includes an electrode part covering the second surface and an opening part formed in the electrode part to expose the second surface therethrough. The electrically conductive layer allows the light to pass therethrough, and formed on an exposed region of the second surface exposed through the opening part so as to be electrically connected to the electrode part and the light-emitting layer. The insulating layer is interposed between the electrode part and the second surface. | 01-23-2014 |
20140027756 | ORGANIC ELECTROLUMINESCENCE ELEMENT - The organic electroluminescence element in accordance with the present invention includes: a light-emitting layer; a first electrode layer on a first surface in a thickness direction of the light-emitting layer; a second electrode layer on a second surface in the thickness direction of the light-emitting layer; an electrically conductive layer; and an insulating layer. The light-emitting layer is configured to emit light when a predetermined voltage is applied between the first and second electrode layers. The second electrode layer includes an electrode part covering the second surface and an opening part formed in the electrode part to expose the second surface. The electrically conductive layer is designed to allow the light to pass therethrough, and is interposed between the second surface and the second electrode layer to cover the second surface. The insulating layer is interposed between the second surface and the electrically conductive layer to overlap the electrode part. | 01-30-2014 |
20140084277 | ORGANIC ELECTROLUMINESCENCE ELEMENT - The organic electroluminescence element in accordance with the present invention includes: a light-emitting layer; a first electrode layer disposed on a first surface in a thickness direction of the light-emitting layer; a second electrode layer disposed on a second surface in the thickness direction of the light-emitting layer; and an electrically conductive layer. The light-emitting layer is configured to emit light when a predetermined voltage is applied between the first electrode layer and the second electrode layer. The second electrode layer includes an electrode part covering the second surface and an opening part formed in the electrode part to expose the second surface. The electrically conductive layer is configured to allow the light to pass therethrough, and is formed on an exposed region of the second surface exposed through the opening part in such a way as to be electrically connected to the electrode part and the light-emitting layer. | 03-27-2014 |
20140097427 | ORGANIC ELECTROLUMINESCENCE ELEMENT AND PRODUCTION METHOD THEREFOR - The organic electroluminescence element of the present invention includes: a first substrate; a second substrate facing the first substrate; an element member between the first and second substrates; first and second extension electrodes on first and second inner surfaces of the first and second substrates facing the element member; and an insulating member having an electrically insulating property. The element member includes: a functional layer including a light-emitting layer and having first and second surfaces in a thickness direction; and first and second electrode layers on the respective first and second surfaces of the functional layer. The element member is between the first and second extension electrodes such that parts of the first and second electrode layers are in contact with the first and second extension electrodes respectively. The insulating member is between the first and second inner surfaces of the respective first and second substrates. | 04-10-2014 |
20140103324 | ORGANIC ELECTROLUMINESCENT ELEMENT - The organic electroluminescence element in accordance with the present invention includes: a functional layer including a light-emitting layer and having a first surface and a second surface in a thickness direction; a first electrode layer positioned on the first surface of the functional layer; a second electrode layer positioned on the second surface of the functional layer; and a hygroscopic member absorbing moisture. The second electrode layer includes a patterned electrode. The patterned electrode includes: an electrode part covering the second surface of the functional layer; and an opening part formed in the electrode part to expose the second surface of the functional layer. The hygroscopic member is positioned on the electrode part to expose the opening part. | 04-17-2014 |
20140124757 | PHOTOELECTRIC ELEMENT AND METHOD FOR PRODUCING THE SAME - To provide a photoelectric element A including a first electrode | 05-08-2014 |
20140131197 | CARBON DIOXIDE ENRICHMENT DEVICE - A carbon dioxide enrichment device includes first and second gas diffusion electrodes; an anion exchange membrane; and an electrolytic solution partitioned by the anion exchange membrane. The electrolytic solution contains solvent and solute, and the solute is dissolved to form a dissolved inorganic carbon containing carbonic acid, hydrogen carbonate ions, or carbonic acid ions. The oxygen is consumed by an oxygen reduction reaction on the first gas diffusion electrode, whereby, a dissolved inorganic carbon is formed by a dissolution and ionization reaction of carbon dioxide in the solvent. The dissolved inorganic carbon from the solute or the dissolved inorganic carbon is transported to the second gas diffusion electrode through the anion exchange membrane, and oxygen is formed from the solvent near the second gas diffusion electrode by an oxidation reaction of the solvent on the second gas diffusion electrode, and carbon dioxide is formed from the dissolved inorganic carbon. | 05-15-2014 |
20150034926 | ORGANIC ELECTROLUMINESCENCE ELEMENT - The organic electroluminescence element includes a functional layer which is interposed between the first electrode and the second electrode and includes a light-emitting layer. The second electrode includes at least an electrically conductive polymer layer which is in contact with the functional layer and has a light transmissive property. The organic electroluminescence element includes: a substrate; a sealing substrate with a light transmissive property; a transparent protection layer covering an element part including a stack of the first electrode, the functional layer and the second electrode; and a resin layer which is interposed between the transparent protection layer and the sealing substrate and has a light transmissive property. | 02-05-2015 |