Method for Manufacturing Thin Film Transistor and Display Panel
1 Assignment
0 Petitions
Accused Products
Abstract
In the present invention, a gate electrode is formed on a substrate surface, and an insulation film is formed on the substrate surface whereon the gate electrode has been formed. A first amorphous silicon layer is formed on the substrate surface whereon the insulation film has been formed. An energy beam is irradiated onto a plurality of required sites spaced from each other in the first amorphous silicon layer to transform each of the required sites into a polysilicon layer. Each of the required sites is situated on the upper side of the gate electrode and serves as a channel region between a source and a drain. This allows other sites, which are in the first amorphous silicon layer and related to the plurality of required sites, to also be irradiated by the energy beam and ablated so as to form at the other sites a cleared portion having a required shape. Thereafter, when a metal layer for the source electrode and the drain electrode is formed, the shape of the cleared portion, which is a recessed portion, is followed, thereby forming a depression in the metal layer. Consequently, the depression is used as an alignment mark, and the source electrode and the drain electrode are formed at appropriate positions on the upper side of the channel region.
-
Citations
13 Claims
-
1-7. -7. (cancelled)
-
8. A method for manufacturing a thin film transistor, comprising the processes of:
-
forming a gate electrode on a surface of a substrate; forming an insulation film on the surface of the substrate on which the gate electrode is formed; forming a first amorphous silicon layer on the surface of the substrate on which the insulation film is formed; annealing a required place in the first amorphous silicon layer by irradiating the required place with an energy beam to be changed to a polysilicon layer; during the annealing process, forming a removed part having a required shape at other place in association with the required place by irradiating the other place with the energy beam; forming a second amorphous silicon layer so as to cover the polysilicon layer; forming an n+silicon layer on the second amorphous silicon layer; forming a required pattern at the n+silicon layer; etching the first amorphous silicon layer, the second amorphous silicon layer and the n+ silicon layer; forming a metal layer on the surface of the substrate after the etching process; and forming source electrode and drain electrode by patterning the metal layer based on a position of a concave formed in the metal layer during forming the metal layer due to a presence of the removed part. - View Dependent Claims (9, 10)
-
-
11. A display panel provided with a thin film transistor and an alignment mark used in a patterning of a source electrode and a drain electrode of the thin film transistor, wherein
the thin film transistor includes: -
a gate electrode formed on a surface of a substrate; an insulation film formed on the substrate and on the gate electrode; a polysilicon layer formed at a required place above the gate electrode in a first amorphous silicon layer formed on the insulation film by irradiating the required place with an energy beam; an inside portion of the thin film transistor in the first amorphous silicon layer, which is formed above the gate electrode by etching the first amorphous silicon layer; a second amorphous silicon layer formed on the inside portion of the thin film transistor in the first amorphous silicon layer and on the polysilicon layer; an n+ silicon layer formed on the second amorphous silicon layer; and the source electrode and the drain electrode formed by patterning a metal layer formed on the surface of the substrate after forming of the n+silicon layer, and the display panel includes; a removed part formed at other place which corresponds with the required place and is located in an outside portion of the thin film transistor in the first amorphous silicon layer, the removed part being formed by irradiating the other place with the energy beam; and a concave formed as the alignment mark in the metal layer due to a presence of the removed part, the metal layer being formed on a portion surrounding the removed part of the first amorphous silicon layer and on the removed part. - View Dependent Claims (12, 13)
-
Specification