Patent ID: 8748892

Claim:
A thin-film transistor in a liquid crystal display device, comprising: a first gate electrode formed on an insulating substrate; a first gate insulation film formed on the insulating substrate including the first gate electrode; an amorphous active layer formed on the first gate insulation film, wherein an entire bottom surface of the amorphous active layer is in contact with the first gate insulation film, the amorphous active layer having a first portion that extends on the first gate insulation film and does not overlap with the first gate electrode; an ohmic contact layer on the amorphous active layer, wherein the ohmic contact layer is formed of amorphous layer in which impurities are doped, and the ohmic contact layer has a second portion that extends on the amorphous active layer and does not overlap with the first gate electrode; source/drain electrodes formed on the active layer and arranged at both sides of the first gate electrode; a second gate insulation film formed on the active layer, the first gate insulation film, and the source/drain electrodes and provided with a contact hole for exposing part of the drain electrode, wherein the contact hole is formed over the first portion of the amorphous active layer and the second portion of the ohmic contact layer, and the second gate insulation film is further provided with a depression over the first gate electrode; a second gate electrode overlapped with the first gate electrode and formed on the second gate insulation film and in the depression, wherein one end portion of the second gate electrode is overlapped with the source electrode and a source end of the ohmic contact layer and wherein another end portion of the second gate electrode is overlapped with the gate electrode and a gate end of the ohmic contact layer; and a pixel electrode electrically connected to the drain electrode through the contact hole, wherein the second gate electrode and the pixel electrode are formed of a metal including at least one of MoTi, Cu, MoNb, Mo, Cr or AlNd, wherein the source electrode is in contact with one vertical side surface of the amorphous active layer, and the drain electrode is in contact with the other vertical side surface of the amorphous active layer, and wherein one end of the ohmic contact layer coincides with the one vertical surface of the amorphous active layer and another end of the ohmic contact layer coincides with the other vertical side surface of the amorphous active layer so that the amorphous active layer does not extend beyond the one vertical surface and the other vertical surface of the amorphous active layer.