摘要:
A charge-transporting varnish containing either a charge-transporting substance consisting of a charge-transporting oligoaniline or a charge-transporting organic material consisting of the charge-transporting substance and a charge-accepting dopant and at least one polymer selected from among polyimides and polyimide precursors; and charge-transporting thin films and organic EL devices, made by using the varnish. The varnish can give thin films which little suffer from defects and have high uniformity and flatness and excellent mechanical strengths, heat resistance, and transparency. In particular, the varnish realizes excellent EL characteristics such as low driving voltage, high emission efficiency, and long service life, when used in organic EL devices.
摘要:
A charge-transporting varnish containing either a charge-transporting substance consisting of a charge-transporting oligoaniline or a charge-transporting organic material consisting of the charge-transporting substance and a charge-accepting dopant and at least one polymer selected from among polyimides and polyimide precursors; and charge-transporting thin films and organic EL devices, made by using the varnish. The varnish can give thin films which little suffer from defects and have high uniformity and flatness and excellent mechanical strengths, heat resistance, and transparency. In particular, the varnish realizes excellent EL characteristics such as low driving voltage, high emission efficiency, and long service life, when used in organic EL devices.
摘要:
An object of the present invention is to provide a method for manufacturing an electronic circuit component such as an organic TFT 1, which can manufacture an electronic circuit component excellent in reliability and having quality on a practical level, because an insulating layer and a conductive layer which have more excellent characteristics can be formed, particularly, on a general-purpose plastic substrate or the like by treatment at a process temperature of 200° C. or lower which has no influence on the above-mentioned plastic substrate.The method for manufacturing an electronic circuit component according to the invention includes heating a layer containing at least one of a polyimide and a precursor thereof at a temperature of 200° C. or lower to form an insulating layer 4 having a contact angle with water of 80° or more, forming a coating film including a dispersion containing metal nanoparticles on the above-mentioned insulating layer 4 and heating the above-mentioned coating film at a temperature of 200° C. or lower to form a conductive layer such as a source layer 5 or a drain layer 6.
摘要:
Disclosed is an electrode patterning layer for use in the formation of an electrode pattern of any desired shape depending on the difference in wetting property of an electrode-forming solution used, which uses a highly reliable polyimide resin as an electronic material. An electrode patterning layer for use in the formation of an electrode pattern of any desired shape depending on the difference in wetting property of an electrode-forming solution used, electrode patterning layer being formed by irradiating a layer comprising a polyamic acid having the repeated unit represented by the general formula (1) or polyimide produced by dehydration and cyclization of the polyamic acid with ultraviolet lay to form a pattern: (1) wherein A represents a tetravalent organic group and B represents a divalent organic group in which one or more A's and B's may be used, and n is a positive integer, provided that at least one of A's is a tetravalent organic group having a alicyclic structure.
摘要:
An object of the present invention is to provide a method for manufacturing an electronic circuit component such as an organic TFT 1, which can manufacture an electronic circuit component excellent in reliability and having quality on a practical level, because an insulating layer and a conductive layer which have more excellent characteristics can be formed, particularly, on a general-purpose plastic substrate or the like by treatment at a process temperature of 200° C. or lower which has no influence on the above-mentioned plastic substrate.The method for manufacturing an electronic circuit component according to the invention includes heating a layer containing at least one of a polyimide and a precursor thereof at a temperature of 200° C. or lower to form an insulating layer 4 having a contact angle with water of 80° or more, forming a coating film including a dispersion containing metal nanoparticles on the above-mentioned insulating layer 4 and heating the above-mentioned coating film at a temperature of 200° C. or lower to form a conductive layer such as a source layer 5 or a drain layer 6.
摘要:
Provided is an electrode patterning layer used for forming an electrode pattern of any optional shape depending on the difference in wettability with an electrode-forming solution, the electrode patterning layer employing a polyimide type resin which is highly reliable as an electronic material. The electrode patterning layer is prepared by irradiating a layer comprising a polyamic acid having repeating units at the formula (1) or a polyimide obtainable by cyclodehydration of such a polyamic acid, with ultraviolet ray in a pattern shape: wherein A is a tetravalent organic group, B is a bivalent organic group, each of A and B may be of a single type or plural types, and n is a positive integer, provided that at least one type of A is a tetravalent organic group having an alicyclic structure.
摘要:
The present invention provides a method for evaluating lithographic characteristics of a lithographic composition containing a copolymer for lithography without actually preparing the composition. The method comprises the steps of: dissolving the copolymer for lithography in a solvent to prepare a test solution; separating a gel-like substance from the test solution; determining a rate of change of a composition ratio, wherein the rate of change of the composition ratio rate refers to a ratio of a difference obtained by subtracting a composition ratio of constitutional units in the copolymer for lithography from a composition ratio of constitutional units in a gel-like substance to the composition ratio of the constitutional units in the copolymer for lithography.
摘要:
A disk device of the invention is provided with a trigger member rotated by being contacted with and pressed by a disk having a different diameter to be conveyed to a replayable position, a slide cam member which drives a disk installment mechanism by being pressed and moved by the trigger member, and a centering member which centers the disk so that the disk faces a turntable at the replayable position. The trigger member has a rotation shaft portion serving as a rotation center, a disk contact portion to be contacted with the disk, and a pressing portion for pressing the slide cam member, and the centering member is provided movably in a disk conveying direction by being contacted with and pressed by the conveyed disk, and has a guide portion for moving the rotation shaft portion of the trigger member in accordance with movement in the disk conveying direction.
摘要:
A prepress system comprises a raster image processor for developing first print image data to display resolution to create first raster image data, and for developing second print image data to the display resolution to create second raster image data. A plate image inspection processor executes a plate image inspection process by comparing the first and second raster image data, and displays on a display device the result of the plate image inspection process.
摘要:
A handlebar steered vehicle includes an operation lever provided on the steering handlebar, an operation detection switch for detecting an operation of the operation lever, and a starting circuit including a starting switch for connecting a battery with a starter motor, the operation detection switch and the starting switch being connected in series with the battery, such that the battery and the starter motor are connected to each other when the operation detection switch and the starting switch are tuned on. Further, a control unit drives a relay to connect the battery to a vehicle load, when an engine speed reaches or exceeds a predetermined value.