发明名称 |
METHOD FOR MAKING TOUCH PANEL |
摘要 |
A method for making a touch panel is provided. A number of first transparent conductive layers are formed on an insulative substrate. Each of the first transparent conductive layers is resistance anisotropy. A number of first electrodes and a first conductive trace are formed corresponding to each first transparent conductive layer. A number of adhesive layers are formed on the insulative substrate with each to cover one of the first transparent conductive layers. A carbon nanotube layer is formed on the number of adhesive layers. The carbon nanotube layer is patterned to obtain a number of second transparent conductive layers spaced from each other and with each corresponding to one first transparent conductive layer. A number of second electrode and a second conductive trace are formed corresponding to each second transparent conductive layer. |
申请公布号 |
US2015059970(A1) |
申请公布日期 |
2015.03.05 |
申请号 |
US201314101762 |
申请日期 |
2013.12.10 |
申请人 |
TIANJIN FUNAYUANCHUANG TECHNOLOGY CO.,LTD. |
发明人 |
WU HO-CHIEN |
分类号 |
G06F3/0488;B32B37/24;B32B38/00;B32B37/02;B32B37/12 |
主分类号 |
G06F3/0488 |
代理机构 |
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代理人 |
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主权项 |
1. A method for making a touch panel, the method comprising:
forming a first patterned adhesive layer on a surface of an insulative substrate, wherein the first patterned adhesive layer comprises a plurality of first adhesive layers spaced from each other; forming a first carbon nanotube layer on a surface of the first patterned adhesive layer; pattering the first carbon nanotube layer to obtain a plurality of first transparent conductive layers spaced from each other and with each located on a surface of one of the plurality of first adhesive layers; forming a plurality of first electrodes and a first conductive trace corresponding to each of the plurality of first transparent conductive layers; forming a second patterned adhesive layer on the first patterned adhesive layer, wherein the second patterned adhesive layer comprises a plurality of second adhesive layers spaced from each other and with each to cover one of the plurality of first transparent conductive layers; forming a second carbon nanotube layer on a surface of the second patterned adhesive layer; pattering the second carbon nanotube layer to obtain a plurality of second transparent conductive layers spaced from each other and with each corresponding to one of the plurality of first transparent conductive layers and located on a surface of one of the plurality of second adhesive layers; and forming a plurality of second electrode and a second conductive trace corresponding to each of the plurality of second transparent conductive layers. |
地址 |
Tianjin CN |