Method for manufacturing thin-film transistor

摘要

The present invention provides a method for manufacturing a thin-film transistor. The thin-film transistor has a bottom gate coplanar structure. The method includes the following steps: step (1): providing a substrate (20); step (2): forming a gate terminal (22) on the substrate (20); step (3): forming a gate insulator layer (24) on the gate terminal (22) and the substrate (20); step (4): forming a source/drain terminal (26) on the gate insulator layer (24) and covering the source/drain terminal (26) with a photosensitive material layer (27); step (5): subjecting a surface of the gate insulator layer (24) to a plasma treatment; step (6): removing the photosensitive material layer (27) located on the source/drain terminal (26); and step (7): forming an oxide semiconductor layer (28) on the source/drain terminal (26) and the gate insulator layer (24) and patternizing the oxide semiconductor layer (28). The present invention applies a plasma treatment to a surface of the gate insulator layer to repair defects on an interface between the gate insulator layer and the oxide semiconductor layer so as to improve the electrical characteristics of the thin-film transistor.

主权项

1. A method for manufacturing a thin-film transistor, wherein the thin-film transistor has a bottom gate coplanar structure, the method comprising the following steps:
(1) providing a substrate; (2) forming a gate terminal on the substrate; (3) forming a gate insulator layer on the gate terminal and the substrate; (4) forming a source/drain terminal on the gate insulator layer and covering the source/drain terminal with a photosensitive material layer, wherein a metal layer is first formed on the gate insulator layer and then covered with the photosensitive material layer, the photosensitive material layer being subjected to exposure through a mask to remove an exposed portion of the photosensitive material layer so as to expose a portion of the metal layer that is then subjected to etching to remove the portion of the metal layer with a remaining portion of the metal layer forming the source/drain terminal and a surface of the gate insulator layer exposed through the removal of the portion the metal layer, surface damages being caused in the exposed surface of the gate insulator layer by the etching; (5) subjecting the exposed surface of the gate insulator layer to a plasma treatment by applying halogen based plasma to the surface of the gate insulator layer that has already formed on the gate terminal and the substrate to repair the surface damages; (6) remove the photosensitive material layer located on the source/drain terminal; and (7) forming an oxide semiconductor layer on the source/drain terminal and the exposed surface of the gate insulator layer with the surface damages between the gate insulator layer and the oxide semiconductor being repaired through the application of the plasma treatment and patternizing the oxide semiconductor layer.