TFT SUBSTRATE AND TFT SUBSTRATE MANUFACTURING METHOD
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Abstract
An object of the invention is to provide a TFT substrate and a method for producing a TFT substrate which is capable of drastically reducing the production cost by decreasing the number of steps in the production process and improving production yield. A TFT substrate comprises: a substrate; a first oxide layer formed above the substrate; a second oxide layer formed above the first oxide layer with a channel part interposed therebetween; a gate insulating film formed above the substrate, the first oxide layer and the second oxide layer; a gate electrode and a gate wire formed above the gate insulating film.
61 Citations
75 Claims
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1-32. -32. (canceled)
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33. A TFT substrate comprising:
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a substrate; a first oxide layer formed above the substrate; a second oxide layer formed above the first oxide layer with a channel part interposed therebetween; a gate insulating film formed above the substrate, the first oxide layer and the second oxide layer; a gate electrode and a gate wire formed above the gate insulating film. - View Dependent Claims (34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49)
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50. A method for producing a TFT substrate comprising the steps of:
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stacking a first oxide layer, a second oxide layer and a first resist in this order on a substrate, and forming the first resist in a predetermined shape by half-tone exposure; patterning the second oxide layer and the first oxide layer by an etching method using the first resist to form a source wire, a drain wire, a source electrode, a drain electrode and a pixel electrode; after reforming the first resist, selectively patterning the second oxide layer by an etching method using the first resist to form a channel part; stacking a gate insulating film, a gate electrode/wire layer and a second resist in this order on the substrate, the first oxide layer and the second oxide layer, and forming the second resist in a predetermined shape by half-tone exposure; patterning the gate electrode/wire layer and the gate insulating film by an etching method using the second resist to expose a source/drain wire pad and the pixel electrode; and after reforming the second resist, selectively patterning the gate electrode/wire layer by an etching method using the second resist to form a gate electrode and a gate wire.
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51. A method for producing a TFT substrate comprising the steps of:
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stacking a first oxide layer, a second oxide layer and a first resist in this order on a substrate, and forming the first resist in a predetermined shape by half-tone exposure; patterning the second oxide layer and the first oxide layer by an etching method using the first resist to form a source wire, a drain wire, a source electrode, a drain electrode and a pixel electrode; after reforming the first resist, selectively patterning the second oxide layer by an etching method using the first resist to form a channel part; stacking an auxiliary conductive layer and a second resist in this order on the substrate, the first oxide layer and the second oxide layer, and forming an auxiliary wire and/or an auxiliary electrode formed of the auxiliary conductive layer by using a second mask on at least one of the source wire, the drain wire, the source electrode and the drain electrode; stacking a gate insulating film, a gate electrode/wire layer and a third resist in this order on the substrate, the first oxide layer, the second oxide layer and the auxiliary conductive layer, and forming the third resist in a predetermined shape by half-tone exposure; patterning the gate electrode/wire layer and the gate insulating film by an etching method using the third resist to expose a source/drain wire pad and the pixel electrode; and after reforming the third resist, selectively patterning the gate electrode/wire layer by an etching method using the third resist to form a gate electrode and a gate wire.
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52. A method for producing a TFT substrate comprising the steps of:
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stacking a first oxide layer, a second oxide layer, an auxiliary conductive layer and a first resist in this order on a substrate, and forming the first resist in a predetermined shape by half-tone exposure; patterning the auxiliary conductive layer by an etching method using the first resist, and patterning the second oxide layer and the first oxide layer by an etching method using the first resist to form a source wire, a drain wire, a source electrode, a drain electrode and a pixel electrode on which the auxiliary conductive layer is stacked; after reforming the first resist, selectively patterning the auxiliary conductive layer and the second oxide layer by an etching method using the first resist to form a channel part; stacking a gate insulating film, a gate electrode/wire layer and a second resist in this order on the substrate, the first oxide layer and the auxiliary conductive layer, and forming the second resist in a predetermined shape by half-tone exposure; patterning the gate electrode/wire layer and the gate insulating film on a source/drain wire pad and the pixel electrode by an etching method using the second resist; and after reforming the second resist, selectively patterning the gate electrode/wire layer by an etching method using the second resist to form a gate electrode and a gate wire, and exposing the source/drain wire pad and the pixel electrode.
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53. A method for producing a TFT substrate comprising the steps of:
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stacking a first oxide layer, a second oxide layer and a first resist in this order on a substrate, and forming the first resist in a predetermined shape by half-tone exposure; patterning the second oxide layer and the first oxide layer by an etching method with a predetermined etching solution (A) using the first resist to form a source wire, a drain wire, a source electrode, a drain electrode and a pixel electrode; reforming the first resist, and selectively patterning the second oxide layer by an etching method using the reformed first resist to form a channel part; stacking a gate insulating film, a gate electrode/wire layer and a second resist in this order on the substrate, the first oxide layer and the second oxide layer, and forming the second resist in a predetermined shape by half-tone exposure; patterning the gate electrode/wire layer and the gate insulating film by an etching method using the second resist to expose a source/drain wire pad and the pixel electrode; reforming the second resist, and selectively patterning the gate electrode/wire layer by an etching method with a predetermined etching solution (B) using the reformed second resist to form a gate electrode and a gate wire; stacking a protective insulating film and a third resist in this order above the substrate on which the gate electrode and the gate wire are formed, and forming the third resist in a predetermined shape; and patterning the protective insulating film by an etching method using the third resist to expose the pixel electrode, the source/drain wire pad and a gate wire pad. - View Dependent Claims (58, 63)
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54. A method for producing a TFT substrate comprising the steps of:
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stacking a first oxide layer, a second oxide layer and a first resist in this order on a substrate, and forming the first resist in a predetermined shape by half-tone exposure; patterning the second oxide layer and the first oxide layer by an etching method with a predetermined etching solution (A) using the first resist to form a source wire, a drain wire, a source electrode, a drain electrode and a pixel electrode; reforming the first resist, and selectively patterning the second oxide layer by an etching method using the reformed first resist to form a channel part; stacking a gate insulating film, a gate electrode/wire layer and a second resist in this order on the substrate, the first oxide layer and the second oxide layer, and forming the second resist in a predetermined shape; patterning the gate electrode/wire layer by an etching method with a predetermined etching solution (B) using the second resist to form a gate electrode and a gate wire; stacking a protective insulating film and a third resist in this order above the substrate on which the gate electrode and the gate wire are formed, and forming the third resist in a predetermined shape; and patterning the protective insulating film and the gate insulating film by an etching method using the third resist to expose the pixel electrode, the source/drain wire pad and a gate wire pad. - View Dependent Claims (59, 64)
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55. A method for producing a TFT substrate comprising the steps of:
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stacking a first oxide layer, a second oxide layer, an auxiliary conductive layer, and a first resist in this order on a substrate, and forming the first resist in a predetermined shape by half-tone exposure; patterning the auxiliary conductive layer by an etching method with a predetermined etching solution (B) using the first resist, and patterning the second oxide layer and the first oxide layer by an etching method with a predetermined etching solution (A) to form a source wire, a drain wire, a source electrode, a drain electrode and a pixel electrode; reforming the first resist, patterning the auxiliary conductive layer by an etching method with the predetermined etching solution (B) using the reformed first resist, and selectively patterning the second oxide layer by an etching method to form a channel part; stacking a gate insulating film, a gate electrode/wire layer and a second resist in this order on the substrate, the first oxide layer and the auxiliary conductive layer, and forming the second resist in a predetermined shape by half-tone exposure; patterning the gate electrode/wire layer and the gate insulating film by an etching method using the second resist to expose the auxiliary conductive layer on a source/drain wire pad and the pixel electrode; reforming the second resist, patterning the gate electrode/wire layer by an etching method using the reformed second resist and the predetermined etching solution (B) to form a gate electrode and a gate wire, and selectively patterning the exposed auxiliary conductive layer by an etching method to expose the source/drain wire pad and the pixel electrode; stacking a protective insulating film and a third resist in this order above the substrate on which the gate electrode and the gate wire are formed and the source/drain wire pad and the pixel electrode are exposed, and forming the third resist in a predetermined shape; and patterning the protective insulating film by an etching method using the third resist to expose the pixel electrode, the source/drain wire pad and a gate wire pad. - View Dependent Claims (60, 65)
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56. A method for producing a TFT substrate comprising the steps of:
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stacking a first oxide layer, a second oxide layer, an auxiliary conductive layer, and a first resist in this order on a substrate, and forming the first resist in a predetermined shape by half-tone exposure; patterning the auxiliary conductive layer by an etching method with a predetermined etching solution (B) using the first resist, and patterning the second oxide layer and the first oxide layer by an etching method with a predetermined etching solution (A) to form a source wire, a drain wire, a source electrode, a drain electrode and a pixel electrode; reforming the first resist, patterning the auxiliary conductive layer by an etching method with the predetermined etching solution (B) using the reformed first resist, and selectively patterning the second oxide layer by an etching method to form a channel part; stacking a gate insulating film, a gate electrode/wire layer and a second resist in this order on the substrate, the first oxide layer and the auxiliary conductive layer, and forming the second resist in a predetermined shape by half-tone exposure; patterning the gate electrode/wire layer and the gate insulating film by an etching method using the second resist to expose the auxiliary conductive layer on the pixel electrode; reforming the second resist, patterning the gate electrode/wire layer by an etching method using the reformed second resist and the predetermined etching solution (B) to form a gate electrode and a gate wire, and selectively patterning the exposed auxiliary conductive layer by an etching method to expose the pixel electrode; stacking a protective insulating film and a third resist in this order above the substrate on which the pixel electrode are exposed, and forming the third resist in a predetermined shape; and patterning the protective insulating film by an etching method using the third resist to expose a gate wire pad and the pixel electrode, and patterning the protective insulating film and the gate insulating film on a source/drain wire pad by an etching method to expose the source/drain wire pad. - View Dependent Claims (61, 66)
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57. A method for producing a TFT substrate comprising the steps of:
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stacking a first oxide layer, a second oxide layer, an auxiliary conductive layer, and a first resist in this order on a substrate, and forming the first resist in a predetermined shape by half-tone exposure; patterning the auxiliary conductive layer by an etching method with a predetermined etching solution (B) using the first resist, and patterning the second oxide layer and the first oxide layer by an etching method with a predetermined etching solution (A) to form a source wire, a drain wire, a source electrode, a drain electrode and a pixel electrode; reforming the first resist, patterning the auxiliary conductive layer by an etching method with the predetermined etching solution (B) using the reformed first resist, and selectively patterning the second oxide layer by an etching method to form a channel part; stacking a gate insulating film, a gate electrode/wire layer and a second resist in this order on the substrate, the first oxide layer and the auxiliary conductive layer, and forming the second resist in a predetermined shape; patterning the gate electrode/wire layer by an etching method using the second resist to form a gate electrode and a gate wire; stacking a protective insulating film and a third resist in this order above the substrate on which the gate electrode and the gate wire are formed, and forming the third resist in a predetermined shape; and patterning the protective insulating film, the gate insulating film and the auxiliary conductive layer by an etching method using the third resist to expose the pixel electrode; and reforming the third resist, patterning the protective insulating film and the gate insulating film by an etching method using the reformed third resist to expose a gate wire pad and a drain wire pad. - View Dependent Claims (62, 67)
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68. A method for producing a TFT substrate comprising the steps of:
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stacking a first oxide layer, a second oxide layer, an auxiliary conductive layer, and a first resist in this order on a substrate, and forming the first resist in a predetermined shape by half-tone exposure; patterning the auxiliary conductive layer by an etching method with a predetermined etching solution (B′
) using the first resist, and patterning the second oxide layer by an etching method with a predetermined etching solution (A′
) to form a channel part, a source wire, a drain wire, a source electrode, a drain electrode and a pixel electrode;reforming the first resist, and selectively patterning the auxiliary conductive layer on the pixel electrode by an etching method with the predetermined etching solution (B′
) using the reformed first resist to expose the pixel electrode;stacking a gate insulating film, a gate electrode/wire layer and a second resist in this order on the first oxide layer, the second oxide layer and the auxiliary conductive layer, and forming the second resist in a predetermined shape by half-tone exposure; patterning the gate electrode/wire layer and the gate insulating film by an etching method using the second resist to expose the pixel electrode; reforming the second resist, and selectively patterning the gate electrode/wire layer by an etching method using the reformed second resist and the predetermined etching solution (B′
) to form a gate electrode and a gate wire;stacking a protective insulating film and a third resist in this order above the substrate on which the gate electrode and the gate wire are formed and the pixel electrode are exposed, and forming the third resist in a predetermined shape; and patterning the protective insulating film by an etching method using the third resist to expose a gate wire pad and the pixel electrode, and patterning the protective insulating film and the gate insulating film on a source/drain wire pad by an etching method to expose the source/drain wire pad. - View Dependent Claims (70, 72, 74)
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69. A method for producing a TFT substrate comprising the steps of:
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stacking a first oxide layer, a second oxide layer, an auxiliary conductive layer, and a first resist in this order on a substrate, and forming the first resist in a predetermined shape by half-tone exposure; patterning the auxiliary conductive layer by an etching method with a predetermined etching solution (B′
) using the first resist, and patterning the second oxide layer by an etching method with a predetermined etching solution (A′
) to form a channel part, a source wire, a drain wire, a source electrode, a drain electrode and a pixel electrode;reforming the first resist, and selectively patterning the auxiliary conductive layer on the pixel electrode by an etching method with the predetermined etching solution (B′
) using the reformed first resist to expose the pixel electrode;stacking a gate insulating film, a gate electrode/wire layer and a second resist in this order on the first oxide layer, the second oxide layer and the auxiliary conductive layer, and forming the second resist in a predetermined shape; patterning the gate electrode/wire layer by an etching method with the predetermined etching solution (B′
) using the second resist to form a gate electrode and a gate wire;stacking a protective insulating film and a third resist in this order above the substrate on which the gate electrode and the gate wire are formed, and forming the third resist in a predetermined shape; and patterning the protective insulating film by an etching method using the third resist to expose a gate wire pad, and patterning the protective insulating film and the gate insulating film on a source/drain wire pad and the pixel electrode by an etching method to expose the source/drain wire pad and the pixel electrode. - View Dependent Claims (71, 73, 75)
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Specification