Patent ID: 6903786

Claim:
A method for manufacturing a liquid crystal display device having an insulating substrate which has a region utilized for an effective displaying area being formed in a main surface of the insulating substrate and comprises a plurality of gate lines, a plurality of signal lines, a plurality of thin film transistors, and a plurality of pixel electrodes each formed in the effective displaying area on the main surface, wherein each of the plurality of signal lines intersects the plurality of gate lines thereon, each of the plurality of thin film transistors is provided at an intersection of one of the plurality of gate lines and one of the plurality of signal lines, and each of the plurality of pixel electrodes is electrically connected to one of the plurality of thin film transistors, the method comprising the following steps in order: a first step for providing a laminated structure of an aluminum alloy layer and a molybdenum alloy layer stacked on the aluminum alloy layer by forming an aluminum alloy film and a molybdenum alloy film in this order on the insulating substrate; a second step for shaping the plurality of gate lines in the effective displaying area and respective gate terminal portions corresponding thereto in a periphery of the effective displaying area by patterning the laminated structure of the aluminum alloy layer and the molybdenum alloy layer; a third step for covering the periphery of the effective displaying area including at least the gate terminal portions on the insulating substrate with an anti-etching member and keeping the effective displaying area including at least the plurality of gate lines not covered with the anti-etching member; a fourth step for immersing the insulating substrate having the periphery of the effective displaying area covered with the anti-etching member into electrolytic solution in which an electrode is disposed so as to contact the laminated structure formed in the effective displaying area including at least the plurality of gate lines with the electrolytic solution; and a fifth step for removing the electrolytic solution and the anti-etching member from the insulating substrate after the fourth step is finished and cleaning the insulating substrate; wherein the molybdenum alloy layer of the laminated structure including each of the plurality of gate lines in contact with the electrolytic solution is removed from the aluminum alloy layer thereof and an aluminum oxide film is formed on a surface of the aluminum alloy layer thereof by anodic oxidation of the surface of the aluminum alloy layer after the removal of the molybdenum alloy layer thereof during the fourth step, and wherein the removal of the molybdenum alloy layer of each of the plurality of gate lines and the anodic oxidation of the aluminum alloy layer of each of the plurality of gate lines are finished during the fourth step.