Patent ID: 8796129
Filing Date: 2014-08-05
Classification: H01L

Abstract:
1. A method for manufacturing a nonvolatile storage device including: a gate electrode provided on a semiconductor substrate; and a film stack extending from between the semiconductor substrate and the gate electrode onto at least a surface of the gate electrode lying on a first impurity diffusion region side and being in contact with a first impurity diffusion region, the film stack including a charge accumulating layer and a tunnel insulating film, the method comprising: (1) preparing the semiconductor substrate; (2) forming a sacrificed oxidation film and a dummy film on the semiconductor substrate; (3) partially removing the sacrificed oxidation film and the dummy film to form an opening portion reaching the semiconductor substrate and then to expose the semiconductor substrate in a lower portion of the opening portion; (4) depositing a tunnel insulating film material and a charge accumulating layer material sequentially over an entire surface of the semiconductor substrate; (5) depositing a gate electrode material over an entire surface of the charge accumulating layer material; (6) etching back the tunnel insulating film material, the charge accumulating layer material and the gate electrode material, to leave the tunnel insulating film material, the charge accumulating layer material and the gate electrode material on each of side surfaces of the opening portion opposed to each other, thereby forming the gate electrode, and the film stack extending from between the gate electrode and the semiconductor substrate into between a side surface of the gate electrode and one of the side surfaces of the opening portion and including the tunnel insulating film and the charge accumulating layer; (7) removing the sacrificed oxidation film and the dummy film; and (8) forming the first impurity diffusion region in the semiconductor substrate on a side of the side surface of the gate electrode formed with the film stack thereon in such manner that the first impurity diffusion region comes into contact with a portion of the film stack, and forming a second impurity diffusion region in the semiconductor substrate on a side opposed to the first impurity diffusion region and sandwiching the gate electrode; wherein between the steps (6) and (7), the method further comprises: (9) depositing an insulating film material having a lower charge trap surface density than the charge accumulating layer material and a word gate material sequentially over an entire surface of the semiconductor substrate; and (10) etching back the insulating film material and the word gate material, to leave the insulating film material and the word gate material on a side surface A of the gate electrode opposite to the side surface of the gate electrode provided with the film stack thereon, thereby forming a word gate on the side surface A and an insulating film extending from between the word gate and the semiconductor substrate into between a side surface of the word gate and the side surface A of the gate electrode, wherein in the step (8), the first and second impurity diffusion regions are formed in the semiconductor substrate so as to sandwich the gate electrode and the word gate therebetween.