Patent ID: 7400365
Filing Date: 2008-07-15
Classification: G02F,H01L

Abstract:
1. Method for manufacturing a thin film transistor array substrate for a liquid crystal display comprising a thin film transistor array; said thin film transistor array substrate comprising: display pixels each having a pixel electrode electrically connected to a thin film transistor, said display pixels being formed in a shape of a matrix on a first insulating substrate; wherein each thin film transistor along a line of the matrix is scanned and selected sequentially by a gate wiring and applied a signal by a source wiring to the pixel electrode, said gate wiring and said source wiring are formed so as to cross each other in the shape of the matrix; wherein a liquid crystal layer is interposed between said thin film transistor array substrate and a counter substrate, said counter substrate having color filters and a common electrode formed on a second insulating substrate, and said thin film transistor array substrate is attached to said counter substrate through said liquid crystal layer by a sealing material; and wherein polarization plates are provided outsides of said thin film transistor array substrate and the counter substrate, respectively; said manufacturing method comprising the steps of: (a) forming a first metal thin film layer on the first insulating substrate, thereafter subjecting the first metal thin film layer to patterning by a first photolithography to form the gate wiring and a gate electrode of the thin film transistor; (b) sequentially forming a gate insulating film layer, a semiconductor film layer, an ohmic contact film layer and a second metal thin film layer, thereafter forming a photo resist pattern on the second metal thin film layer by a second photolithography so as to contain a first part positioned on top of the semiconductor active layer where the thin film transistor is to be formed, a second part thicker than the first part and a third part thicker than the first and second parts, etching the second metal film, the ohmic contact film and the semiconductor film, thinning the photo resist pattern, removing the first part of the photo resist pattern, removing the second metal film under the first part of the photo resistor pattern where the thin film transistor is to be formed by etching, and removing the ohmic contact film under the first part of the photo resistor pattern where the thin film transistor is to be formed to form the thin film transistor having the semiconductor active layer; (c) forming an interlayer insulating film on the second metal thin film, thereafter subjecting said interlayer insulating film to a third photolithography so as to form a pixel contact hole reaching at least a surface of said second metal film that forms a drain electrode, a first contact hole reaching a surface of said first metal thin film, and a second contact hole reaching a surface of said second metal thin film; and (d) forming a transparent conductive film on the interlayer insulating film, thereafter subjecting said transparent conductive film to patterning by a fourth photolithography so as to form the pixel electrode; wherein said first metal thin film has a two-layered structure comprising a first layer made of an aluminum alloy containing aluminum and neodymium and a second layer located on said first layer, said second layer is obtained by adding at least one element of nitrogen, carbon and oxygen as dopant to the aluminum alloy, and wherein said second metal thin film is formed of an alloy mainly containing molybdenum.