摘要:
A transparent conductive film, including: a transparent substrate, including a body and a flexible connecting component extending from a side of the body, where a width of the flexible connecting component is less than a width of the side of the body from which the flexible connecting component extends, a conductive line is disposed on the flexible connecting component, and the body includes an induction area and a border area; a grid-shaped conductive layer, disposed in the induction area, where the conductive layer includes conductive wires intersecting each other; an lead electrode, disposed in the border area, where the conductive layer and the conductive line are electrically connected via the lead electrode. Since the flexible connecting component and the body are formed as an integrated part, it is unnecessary to separately adhere the flexible connecting component to the transparent conductive film thereby reducing adhering process and improving production efficiency.
摘要:
The present invention discloses a patterned transparent conductive film based on the random grid, wherein the surface of the conductive film can be divided into a conductive region and an insulating region, with the conductive region having the grid made of metal. The grid of the conductive region, composed of the grid line of the conductive region, is a random grid having an irregular shape, and can avoid periodic shielding generated by the opaque metal grid lines and the periodic pixel unit of LCD. The patterned transparent conductive film provided by the present invention is composed of the irregular random grid, and therefore will not generate the Moire stripe. Besides, finally by naked eyes observation, the conductive region and the insulating region have exactly the same or close transmittance, and therefore will not generate the grayscale contrast.
摘要:
A conductive glass substrate includes a glass substrate, a silicon dioxide layer, and a conductive mesh line, the glass substrate defines a meshed groove on a surface thereof; the silicon dioxide layer is attached to the surface of the glass substrate having the groove; the conductive mesh line have a shape adapted to that of the groove, the conductive mesh line is deposited in the groove and attached to the glass substrate via the silicon dioxide layer. In the conductive glass substrate, the conductive mesh line is received in the groove, compared with the conventional conductive glass substrate, a flexible substrate as a supporting body is not needed, the cost is down, and the structure of the conductive glass substrate is simple, further reducing the process, saving manpower and resources. A method of preparing the conductive glass substrate is provided.
摘要:
A capacitive transparent conductive film comprises: a transparent substrate, comprises a first surface and a second surface which is opposite to the first surface; a light-shield layer, formed at the edge of the first surface of the transparent substrate, the light-shield layer forms a non-visible region on the first surface of the transparent substrate; and a polymer layer, formed on the first surface of the transparent substrate, and covering the light-shield layer, the surface of the polymer layer is patterned to form a meshed trench, the trench is filled with conductive material to form a sensing region on the surface of the polymer layer. The capacitive transparent conductive film can effectively protect the conductive material and has low cost and good conductivity. A preparation method of the capacitive transparent conductive film is also provided.
摘要:
A touch screen manufacturing method includes the following steps: providing a glass substrate; bombarding a surface of the glass substrate by plasma to expose Si—O-groups on the surface; coating and curing a jell on the surface of the glass substrate which is bombarded by plasma, forming a base material layer, the jell is bonded to the Si—O-groups on the glass substrate during curing; embossing the base material layer by embossing mold, forming a trench on the surface of the base material layer against the glass substrate; and filling metal into the trench, and forming metal mesh as a conductive layer. A touch screen is also disclosed. Compared to the traditional process using ITO as a conductive layer, mesh shape can be one-step formed, the process is simple, and the yield rate is high. And the cost is greatly reduced using metal instead of ITO, since not etching process is used, conductive material will not be wasted, and it reduces heavy metal emission in the waste.
摘要:
A transparent conductive film includes: a substrate having a first surface and a second surface opposite to the first surface; a first grid groove, defined in the first surface of the substrate, the bottom of the first grid groove being of non-planar structure; and a first conductive layer, including a first conductive grid made of a conductive material filled in the first grid groove. Since the bottom of the first grid groove is not planar, it is beneficial to releasing tension as the liquid conductive material contacts the bottom of the first grid groove, so as to avoid the liquid conductive material shrinking into a plurality of spherical or near-spherical structures due to large tension, thereby reducing probability of the conductive material being formed as a plurality of spaced spherical or near-spherical structures after sintered, improving connectivity inside the conductive material, and guaranteeing conductivity of the transparent conductive film.
摘要:
A flexible circuit connecting device is disclosed, including a base layer having a first surface and a second surface, and conductive traces having a grid-like structure and formed on the first surface and/or the second surface. The conductive traces of the above flexible circuit connecting device are nearly aligned with the base layer, and thus the probability of damage under a stress is reduced. Designed to be a grid-like structure, the conductive traces become more transparent, while satisfying a function of a connector. Besides, the above flexible circuit connecting device has a high density circuit trace, so that the size of the connector can be reduced and the interior space of the electronic components can be saved. In a manufacture process of the above flexible circuit connecting device, the manufacture process can be simplified, manufacture efficiency and production yield can be improved, and manufacture cost can be efficiently reduced.
摘要:
A touchscreen sensing module includes a first baseplate, a first conductive layer, a second baseplate, a second conductive layer, and a supporting substrate. A first groove in a predetermined shape is defined on a side of the first baseplate. The first conductive layer matches with the first groove in shape, and the first conductive layer is received in the first groove. A second groove in a predetermined shape is defined on a side of the second baseplate. The second conductive layer matches with the second groove in shape, and the second conductive layer is received in the second groove. The first conductive layer and the second conductive layer respectively match with the first groove and the second groove in shape, no etching is needed to obtain electrodes when forming the conductive layers, which avoids material waste and reduces costs In addition, a monitor is also provided by the present invention.
摘要:
A touch sensing element is provided comprising an insulating substrate and a conductive layer located on a surface of the insulating substrate. The conductive layer comprises: a plurality of first conductive traces arranged at intervals along a first direction, each first conductive trace extending along a second direction; and a plurality of second conductive traces arranged to form second conductive trace columns, each second conductive trace column comprises a plurality of second conductive traces arranged at intervals along the second direction, each second conductive trace column is correspondingly located corresponding to a lateral direction of the first conductive trace. Each second conductive trace of each conductive trace column is spaced from and forms a mutual inductance with a corresponding first conductive trace. The conductive layer is formed on a surface of the insulating substrate; the structure and process are much simpler. A touch panel having the touch sensing element is also provided.
摘要:
The present invention relates to a double-sided conductive film having a relatively high transmittance, which can be widely applied in the field of manufacturing flat panel displays. The flexible transparent film is polyethylene terephthalate, the flexible transparent film is a flexible material having an index of refraction of 1.4 to 1.5; the hardened layer is a surface hardening treatment layer of the flexible transparent film, and is made by coating the upper and the lower surfaces of the flexible transparent film; the adhesive layer is sputtered on a surface of the hardened layer by magnetron sputtering, the main purpose of forming the adhesive is to make the hardened layer and the high refractive index dielectric layer bonded together more firmly; the high refractive index dielectric layer is made of a high refractive index material having a refractive index of 1.8 to 2.5; the low refractive index dielectric layer is made of a low refractive index material having a refractive index of 1.4 to 1.8.