Display device and manufacturing method thereof
First Claim
1. A method for manufacturing a display device comprising the steps of:
- forming a gate electrode;
forming a gate insulating film over the gate electrode;
forming a microcrystalline semiconductor film;
forming a channel protective layer over and in contact with a channel formation region of the microcrystalline semiconductor film;
forming a doped semiconductor film over the microcrystalline semiconductor film and over the channel protective layer;
forming a conductive film over the doped semiconductor film;
forming a source electrode and a drain electrode, by etching the conductive film;
forming a source region and a drain region, by etching the doped semiconductor film; and
forming a doped region by adding an impurity element to the channel formation region through the channel protective layer, using the source electrode and the drain electrode as masks,wherein the impurity element imparts either p-type conductivity or n-type conductivity to the microcrystalline semiconductor film.
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Abstract
A display device including a thin film transistor with high electric characteristics and high reliability, and a method for manufacturing the display device in high yield are proposed. In a display device including a channel stop thin film transistor with an inverted-staggered structure, the channel stop thin film transistor with the inverted-staggered structure includes a microcrystalline semiconductor film including a channel formation region. An impurity region including an impurity element imparting one conductivity type is formed as selected in a region in the channel formation region of the microcrystalline semiconductor film which does not overlap with a source electrode or a drain electrode. In the channel formation region, a non-doped region, to which the impurity element imparting one conductivity type is not added, is formed between the impurity region, which is a doped region to which the impurity element is added, and the source region or the drain region.
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Citations
15 Claims
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1. A method for manufacturing a display device comprising the steps of:
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forming a gate electrode; forming a gate insulating film over the gate electrode; forming a microcrystalline semiconductor film; forming a channel protective layer over and in contact with a channel formation region of the microcrystalline semiconductor film; forming a doped semiconductor film over the microcrystalline semiconductor film and over the channel protective layer; forming a conductive film over the doped semiconductor film; forming a source electrode and a drain electrode, by etching the conductive film; forming a source region and a drain region, by etching the doped semiconductor film; and forming a doped region by adding an impurity element to the channel formation region through the channel protective layer, using the source electrode and the drain electrode as masks, wherein the impurity element imparts either p-type conductivity or n-type conductivity to the microcrystalline semiconductor film. - View Dependent Claims (2, 3, 4, 5)
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6. A method for manufacturing a display device comprising the steps of:
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forming a gate electrode; forming a gate insulating film over the gate electrode; forming a microcrystalline semiconductor film; forming a channel protective layer over and in contact with a channel formation region of the microcrystalline semiconductor film; forming a doped semiconductor film over the microcrystalline semiconductor film and over the channel protective layer; forming a conductive film over the doped semiconductor film; forming a source electrode and a drain electrode, by etching the conductive film; forming a source region and a drain region, by etching the doped semiconductor film; forming a doped region by adding an impurity element to the channel formation region through the channel protective layer, using the source electrode and the drain electrode as masks; and irradiating the doped region with laser light through the channel protective layer, using the source electrode and the drain electrode as masks, wherein the impurity element imparts either p-type conductivity or n-type conductivity to the microcrystalline semiconductor film. - View Dependent Claims (7, 8, 9, 10)
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11. A method for manufacturing a display device comprising the steps of:
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forming a gate electrode; forming a gate insulating film over the gate electrode; forming a microcrystalline semiconductor film; forming a channel protective layer over and in contact with a channel formation region of the microcrystalline semiconductor film; forming a doped semiconductor film over the microcrystalline semiconductor film and over the channel protective layer; forming a conductive film over the doped semiconductor film; forming a source electrode and a drain electrode, by etching the conductive film; forming a source region and a drain region, by etching the doped semiconductor film; forming a doped region by adding an impurity element to the channel formation region through the channel protective layer, using the source electrode and the drain electrode as masks, wherein the impurity element imparts either p-type conductivity or n-type conductivity to the microcrystalline semiconductor film, and wherein dry etching is used in the step of etching the conductive film and in the step of etching the doped semiconductor film. - View Dependent Claims (12, 13, 14, 15)
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Specification