Abstract: The touch panel comprises a plurality of first axial electrodes extending along a first direction and a plurality of second axial electrodes extending along a second direction. The second axial electrode comprises a plurality of second axial conductive units and a plurality of bridging structures connecting with two adjacent second axial conductive units electrically. The bridging structure comprises a conductive component and an insulating component. The insulating component disposed between the conductive component and the first axial electrode. The conductive component comprises a connection portion and two contact portions, the two contact portions are respectively disposed on both ends of the insulating component and contact their corresponding second axial conductive units. The connection portion is electrically connected with the two contact portions, while the length of the connection portion along the first direction is less than the lengths of the contact portions along the first direction.

Abstract: The present disclosure provides a touch-panel display device. The touch-panel display device comprises a substrate, a display module, a sensing module and a function layer. The substrate includes a first surface and a second surface on opposite sides of the substrate, respectively. The display module is proximal to the first surface of the substrate, and the sensing module is disposed between the display module and the substrate. The function layer, disposed on either the first surface or the second surface of the substrate, is configured to polarize light emitted from the display module towards the substrate.

Abstract: The present disclosure provides a touch-panel display device. The touch-panel display device comprises a substrate, a display module, a sensing module and a function layer. The substrate includes a first surface and a second surface on opposite sides of the substrate, respectively. The display module is proximal to the first surface of the substrate, and the sensing module is disposed between the display module and the substrate. The function layer, disposed on either the first surface or the second surface of the substrate, is configured to polarize light emitted from the display module towards the substrate.

Abstract: The present disclosure provides a touch device. The touch device comprises a sensor electrode layer, a conductive jumper and a dielectric layer. The sensor electrode layer includes conductive sensors. The conductive jumper is configured to electrically connect the conductive sensors. Moreover, the dielectric layer has a patterned surface, which physically contacts the conductive jumper and embeds therein a portion of the conductive jumper.

Abstract: The present disclosure provides a method for manufacturing a touch panel, wherein the method comprises: forming a touch sensing layer on a visible region and a non-visible region of a cover substrate, wherein the non-visible region is located at periphery of the visible region forming a first opaque insulating layer on the touch sensing layer in the non-visible region; forming a wiring layer on the first opaque insulating layer: and forming a conductive layer to electrically connect the wiring layer and the touch sensing layer. Moreover, the present disclosure also provides a touch panel. Accordingly, the touch sensing accuracy is maintained, and the production rate is improved.

Abstract: A touch panel used for a touch control electronic device is disclosed. The touch panel comprises a first board. The first board has a first surface, wherein the first surface undergoes an atomizing process to have at least one semitransparent area. The at least one semitransparent area has a first semitransparent figure which is interlaced by an atomized area and a non-atomized area for changing a light shielding rate of the first semitransparent figure by adjusting the atomized area.

Abstract: A touch panel is provided. The touch panel includes a first substrate and a luminous flux adjusting portion. The first substrate has a top surface, in which the top surface has at least one semi-transparent area. The luminous flux adjusting portion is disposed on the first substrate and located in the at least one semi-transparent area, in which the luminous flux adjusting portion has a continuous light-impermissible pattern. Embodiments of the present invention uses the luminous flux adjusting portion to control the luminous flux of the semi-transparent area for achieving good consistence and adjustability of the luminous flux of the semi-transparent area.

Abstract: A touch panel is provided. The touch panel includes a first substrate and a luminous flux adjusting portion. The first substrate has a top surface, in which the top surface has at least one semi-transparent area. The luminous flux adjusting portion is disposed on the first substrate and located in the at least one semi-transparent area, in which the luminous flux adjusting portion has a continuous light-impermissible pattern. Embodiments of the present invention uses the luminous flux adjusting portion to control the luminous flux of the semi-transparent area for achieving good consistence and adjustability of the luminous flux of the semi-transparent area.

Abstract: A touch panel and a method thereof are provided. The touch panel includes a touch sensor, a shielding layer, and a plurality of conducting foils. The shielding layer is disposed on the touch sensor. The plurality of conducting foils is disposed via an Anisotropic Conductive Film (ACF) on a surface of the shielding layer, which is on an opposite side of a surface of the touch sensor. Any two of the plurality of conducting foils, the ACF, and the shielding layer are connected in series as a signal path.

Abstract: The present invention provides a method for forming a touch panel, at least comprising the following steps. Step S1: a patterned first electrode layer is formed on a cover lens. A display region and a non-display region are defined on the cover lens, and the patterned first electrode layer is formed within the display region; step S2: a shielding layer is formed on the cover lens and disposed within the non-display region; step S3: an insulating layer is then formed on the shielding layer and on the patterned first electrode layer, a plurality of via holes are formed on the insulating layer, thereby exposing parts of the patterned first electrode layer; and step S4: a patterned second electrode layer is formed on the insulating layer within the non-display region, and the patterned second electrode layer is electrically connected to the patterned first electrode layer through the via holes.

Abstract: The present disclosure provides a method for manufacturing a touch panel, wherein the method comprises: forming a touch sensing layer on a visible region and a non-visible region of a cover substrate, wherein the non-visible region is located at periphery of the visible region forming a first opaque insulating layer on the touch sensing layer in the non-visible region; forming a wiring layer on the first opaque insulating layer: and forming a conductive layer to electrically connect the wiring layer and the touch sensing layer. Moreover, the present disclosure also provides a touch panel. Accordingly, the touch sensing accuracy is maintained, and the production rate is improved.

Abstract: A touch panel module includes a substrate, a sensor layer disposed on the substrate, a first glue layer disposed on the sensor layer and an anti-electromagnetic interference layer disposed on the first glue layer. The touch panel module with anti-electromagnetic interference can be formed independently, and may be combined with other electronic device to form a touch device, thereby reducing the thickness of the touch device and simplifying the process steps.

Abstract: A touch device including a touch panel is provided. The touch panel includes a substrate having a touching surface and a bonding surface opposite to the touching surface, and further having a viewable area and a non-viewable area surrounding the viewable area. A colorful decoration layer is disposed on the bonding surface of the substrate and at the non-viewable area. The colorful decoration layer has a gradient side adjacent to the viewable area. A planarization layer completely covers the gradient side of the colorful decoration layer and the bonding surface of the substrate. A touch sensing layer is disposed on the planarization layer and extended from the viewable area to the non-viewable area. Further, a method for fabricating a touch device is provided.

Abstract: A touch panel module includes an integrated panel and a casing. The integrated panel defines a transparent region and a non-transparent region around the transparent region. The integrated panel has a covering substrate, a decorating layer disposed on the inner surface of the covering substrate and arranged in the non-transparent region, a sensing electrode layer disposed on the inner surface of the covering substrate and arranged in the transparent region, a circuit layer disposed on the decorating layer and electrically connected to the sensing electrode layer, and a protective layer at least covering par of the decorating layer and part of the circuit layer. The casing is formed by injection molding, wherein one portion of the casing is arranged in the non-transparent region and formed on the protective layer, and another portion of the casing covers a circumferential lateral edge of the integrated panel.

Abstract: The touch panel comprises a plurality of first axial electrodes extending along a first direction and a plurality of second axial electrodes extending along a second direction. The second axial electrode comprises a plurality of second axial conductive units and a plurality of bridging structures connecting with two adjacent second axial conductive units electrically. The bridging structure comprises a conductive component and an insulating component. The insulating component disposed between the conductive component and the first axial electrode. The conductive component comprises a connection portion and two contact portions, the two contact portions are respectively disposed on both ends of the insulating component and contact their corresponding second axial conductive units. The connection portion is electrically connected with the two contact portions, while the length of the connection portion along the first direction is less than the lengths of the contact portions along the first direction.

Abstract: A touch panel having a central region and a peripheral region, including: a substrate; a touch sensing layer disposed on the substrate; a wiring layer disposed on the peripheral region of the substrate electrically connected to the touch sensing layer; a first decorative layer disposed on the peripheral region and covering the wiring layer; a transparent adhesive layer disposed on the touch sensing layer and the first decorative layer; a cover substrate disposed on the transparent adhesive laver; and a second decorative layer disposed between the cover substrate and the transparent adhesive layer, and corresponding to the peripheral region.