摘要:
The present disclosure relates to a touch panel. The touch panel includes a substrate having a surface, a transparent conductive layer, at least one electrode, and a conductive trace. The substrate defines a touch-view area and a trace area. The transparent conductive layer is located on the surface of the substrate and on only the touch-view area. The transparent conductive layer includes a carbon nanotube film. The at least one electrode is electrically connected with the transparent conductive layer. The conductive trace is located on only the trace area and electrically connected with the at least one electrode.
摘要:
A patterned conductive element includes a substrate having a surface, an adhesive layer located on the surface, and a patterned carbon nanotube layer located on the adhesive layer. Part of the patterned carbon nanotube layer is embedded in the adhesive layer, and the other part of the patterned carbon nanotube layer is exposed from the adhesive layer.
摘要:
A method for making a plurality of touch panels one time which includes the following steps. A substrate is provided. The substrate has a surface defining a plurality of target areas with each including a touch-view area and a trace area. An adhesive layer is formed on the surface of the substrate. The adhesive layer on the trace areas is solidified. A carbon nanotube layer is formed on the adhesive layer. The adhesive layer on the touch-view area is solidified. The carbon nanotube layer on the trace areas is removed to obtain a plurality of transparent conductive layers spaced from each other. An electrode and a conductive trace are formed on each target area. A plurality of touch panels is obtained by cutting the substrate.
摘要:
The present disclosure relates to a method for making pattern conductive element. The method includes steps. A substrate having a surface is provide. An adhesive layer is formed on the surface of the substrate. Part of the adhesive layer is solidified to form a solidified adhesive layer and a non-solidified adhesive layer. A carbon nanotube layer is applied on the adhesive layer. The non-solidified adhesive layer is solidified so that the carbon nanotube layer on the non-solidified adhesive layer forms a fixed carbon nanotube layer and the carbon nanotube layer on the solidified adhesive layer forms a non-fixed carbon nanotube layer. The non-fixed carbon nanotube layer is removed and the fixed carbon nanotube layer is remained to form a pattern carbon nanotube layer.
摘要:
The present disclosure relates to a method for making touch panel. A substrate having a surface is provided. The substrate defines two areas: a touch-view area and a trace area. An adhesive layer is formed on the surface of the substrate. The adhesive layer on the trace area is solidified. A carbon nanotube layer is formed on the adhesive layer. The adhesive layer on the touch-view area is solidified. The carbon nanotube layer on the trace area is removed. At least one electrode and a conductive trace is formed.
摘要:
A touch device including a first slice and a second slice separated from the first slice is provided. The first slice has a first dielectric layer having conductive properties. The first dielectric layer provides a first polarizing direction. The second slice has a second dielectric layer with conductive properties. The second dielectric layer provides a second polarizing direction. The first polarizing direction is different form the second polarizing direction.
摘要:
A touch panel comprises: a first conductive plate including a first substrate having a surface, a first conductive layer disposed on the surface of the first substrate and exhibiting an anisotropic resistivity, and at least one conductive first connecting line, the surface of the first substrate having a peripheral edge, a sensing region covered by the first conductive layer, and a marginal region extending from the sensing region to the peripheral edge, the first connecting line being disposed on the marginal region; and a second conductive plate including a second substrate and a second conductive layer disposed on the second substrate, facing the first conductive layer, and exhibiting anisotropic resistivity. An electronic device including the touch panel is also disclosed.
摘要:
A method for fabricating a conductive plate includes providing a base substrate and a conductive material that includes a plurality of nanounits. The conductive material is placed on the base substrate, where a portion of the conductive material placed on the base substrate is removed.
摘要:
A touch panel including a first substrate, a second substrate and a plurality of spacers, where the first substrate has a first conductive film, and the second substrate has a second conductive film. The second substrate is disposed close to the first substrate. The second conductive film is opposite to the first conductive film. The spacers are disposed between the first conductive film and the second conductive film.
摘要:
A method for making a conductive film exhibiting electric anisotropy comprises forming a nanomaterial on a substrate, the nanomaterial having a cluster of interconnected nanounits, each of which being substantially transverse to the substrate and having one end bonded to the substrate. The method further includes stretching the nanounits along a first direction to remove the nanomaterial from the substrate so as to form a conductive film having strings of interconnected nanounits, where the nanounits of the strings substantially extend in the first direction. A conductive plate and a method for making the same is also disclosed, where the method further comprises attaching the conductive film to a second substrate.