Liquid crystal display device with particular metal layer configuration of TFT and fabricating method thereof
First Claim
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1. A liquid crystal display device, comprising:
- a substrate;
a gate electrode over the substrate;
a first semiconductor layer over the gate electrode;
a second semiconductor layer over the first semiconductor layer defining a separation region with the first semiconductor layer;
a first metal layer on the second semiconductor layer to define a separation region, wherein the first metal layer is patterned in a same pattern as the second semiconductor layer such that an outer edge of the first metal layer and an outer edge of the second semiconductor layer are lined up with one another to define a separation region for exposing some surfaces of the first semiconductor layer;
source and drain electrodes, each having a first portion overlapping with the first metal layer and the second semiconductor layer to define a first upper portion of the separation region that abuts the lined up outer edges of the first and second semiconductor layers, and a second portion overlapping with the substrate around the gate electrode, wherein the source and drain electrodes include a second and a third metal layer, wherein the first, second and third metal layers comprise a same step shape that are symmetrical with respect to each other, the second metal layer extends beyond edges of the first semiconductor layer, the first metal layer extends only to edges of the first semiconductor layer, and the first and third metal layers do not contact each other; and
a data pad over the substrate including the second and third metal layers.
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Abstract
A liquid crystal display device includes a substrate; a gate electrode over the substrate; a first semiconductor layer over the gate electrode; a second semiconductor layer over the first semiconductor layer; a first metal layer on the second semiconductor layer and patterned the same as the second semiconductor layer such that the first metal layer and second semiconductor layer define a separation region; and source and drain electrodes over the first metal layer. The source and drain electrodes are patterned the same as the first metal layer and the second semiconductor layer in the separation region. The source and drain electrodes include a second and a third metal layer.
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Citations
16 Claims
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1. A liquid crystal display device, comprising:
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a substrate; a gate electrode over the substrate; a first semiconductor layer over the gate electrode; a second semiconductor layer over the first semiconductor layer defining a separation region with the first semiconductor layer; a first metal layer on the second semiconductor layer to define a separation region, wherein the first metal layer is patterned in a same pattern as the second semiconductor layer such that an outer edge of the first metal layer and an outer edge of the second semiconductor layer are lined up with one another to define a separation region for exposing some surfaces of the first semiconductor layer; source and drain electrodes, each having a first portion overlapping with the first metal layer and the second semiconductor layer to define a first upper portion of the separation region that abuts the lined up outer edges of the first and second semiconductor layers, and a second portion overlapping with the substrate around the gate electrode, wherein the source and drain electrodes include a second and a third metal layer, wherein the first, second and third metal layers comprise a same step shape that are symmetrical with respect to each other, the second metal layer extends beyond edges of the first semiconductor layer, the first metal layer extends only to edges of the first semiconductor layer, and the first and third metal layers do not contact each other; and a data pad over the substrate including the second and third metal layers. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method of forming a liquid crystal display device, comprising:
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forming a gate electrode on a substrate; forming an active layer over the gate electrode; forming a first semiconductor layer over the active layer; forming a second semiconductor layer over the first semiconductor layer to define a separation region with the first semiconductor layer; forming a first metal layer over the second semiconductor layer; forming and patterning a source electrode and a drain electrode over the first metal layer using a wet-etch process for a limited period to prevent over-etching of the first metal layer; and subsequently patterning the first metal layer and the second semiconductor layer in a same pattern by dry-etching using the previously formed and patterned source and drain electrodes as a mask to expose the active layer between the source and drain electrodes to create a defined outer edge of the first metal layer and a defined outer edge of the second semiconductor layer lined up with one another to define the separation region and thereby reduce a leakage current, wherein forming the source and drain electrodes includes; forming a second metal layer over the first metal layer, forming a third metal layer over the first metal layer, and patterning the second and third metal layers in the same pattern as the first metal layer and second semiconductor layer in the channel region so that a channel portion of the first semiconductor layer is exposed, and wherein the first, second and third metal layers are formed to have a same step shape that are symmetrical with respect to each other, the second metal layer extends beyond edges of the first semiconductor layer, the first metal layer extends only to edges of the first semiconductor layer, and the first and third metal layers do not contact each other. - View Dependent Claims (9, 10, 11, 12, 13, 14)
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15. A method of forming a liquid crystal display device, comprising:
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forming a gate electrode on a substrate; forming an active layer over the gate electrode; forming a first semiconductor layer over the active layer; forming a second semiconductor layer over the first semiconductor layer to define a separation region with the first semiconductor layer; forming a first metal layer over the second semiconductor layer to define a separation region; forming and patterning a source electrode and a drain electrode over the first metal layer by a wet-etch process of limited duration that allows the source electrode and the drain electrode to be etched but does not allow over-etching of the first metal layer; forming an ohmic contact layer on the second semiconductor layer; and subsequently patterning, simultaneously, the first metal layer, the second semiconductor layer, and the ohmic contact layer in a same pattern by dry-etching using the previously formed and patterned source and drain electrodes as a mask to expose the active layer between the source and drain electrodes defined outer edge of the first metal layer and a defined outer edge of the semiconductor layer lined up with one another to define the separation region and to reduce over-etching of the first metal layer and thereby reduce a leakage current, wherein the first, second and third metal layers are formed to have a same step shape that are symmetrical with respect to each other, the second metal layer extends beyond edges of the first semiconductor layer, the first metal layer extends only to edges of the first semiconductor layer, and the first and third metal layers do not contact each other. - View Dependent Claims (16)
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Specification