Patent ID: 9647088
Date: 2017-05-09
CPC Classifications: H01L

Claim:
1. A manufacturing method of a low temperature polysilicon thin film transistor, comprising: providing a substrate; forming a buffer layer on the substrate; simultaneously forming a polysilicon layer and a photoresist layer on the buffer layer, wherein the polysilicon layer is a continuous layer located between the buffer layer and the photoresist layer, the polysilicon layer comprises a source region, a drain region and a channel region located therebetween, the photoresist layer has a continuous stepwise shape; a thickness of the photoresist layer located on a portion of the source region far away from the channel region, a thickness of the photoresist layer located on a portion of the source region close to the channel region and a thickness of the photoresist layer located on the channel region are different from one another and successively increased in that order; a thickness of the photoresist layer located on a portion of the drain region far away from the channel region, a thickness of the photoresist layer located on a portion of the drain region close to the channel region and the thickness of the photoresist layer located on the channel region are different from one another and successively increased in that order; implanting ions through the photoresist layer into the source region and the drain region to make the source region and the drain region to form a source electrode and a drain electrode respectively, wherein the portion of the source region far away from the channel region is a source heavily doped region, the portion of the source region close to the channel region is a source lightly doped region, the portion of the drain region far away from the channel region is a drain heavily doped region, the portion of the drain region close to the channel region is a drain lightly doped region; removing the photoresist layer after the implanting; forming an insulating layer on the polysilicon layer; forming a gate electrode on the insulating layer; forming a passivation layer on the insulating layer, wherein the passivation layer is disposed covering the gate electrode.