摘要:
Memory cells comprising: a semiconductor substrate having at least two source/drain regions separated by a channel region; a charge-trapping structure disposed above the channel region; and a gate disposed above the charge-trapping structure; wherein the charge-trapping structure comprises a bottom insulating layer, a first charge-trapping layer, and a second charge-trapping layer, wherein an interface between the bottom insulating layer and the substrate has a hydrogen concentration of less than about 3×1011/cm−2, and methods for forming such memory cells.
摘要翻译:存储单元包括:半导体衬底,具有由沟道区分开的至少两个源极/漏极区域; 设置在通道区域上方的电荷捕获结构; 以及设置在电荷捕获结构上方的栅极; 其中所述电荷捕获结构包括底部绝缘层,第一电荷俘获层和第二电荷俘获层,其中所述底部绝缘层和所述基底之间的界面的氢浓度小于约3×1011 / cm -2,以及形成这种记忆单元的方法。
摘要:
Memory cells comprising: a semiconductor substrate having at least two source/drain regions separated by a channel region; a charge-trapping structure disposed above the channel region; and a gate disposed above the charge-trapping structure; wherein the charge-trapping structure comprises a bottom insulating layer, a first charge-trapping layer, and a second charge-trapping layer, wherein an interface between the bottom insulating layer and the substrate has a hydrogen concentration of less than about 3×1011/cm−2, and methods for forming such memory cells.
摘要翻译:存储单元包括:半导体衬底,具有由沟道区分开的至少两个源极/漏极区域; 设置在通道区域上方的电荷捕获结构; 以及设置在电荷捕获结构上方的栅极; 其中所述电荷捕获结构包括底部绝缘层,第一电荷俘获层和第二电荷俘获层,其中所述底部绝缘层和所述基底之间的界面的氢浓度小于约3×1011 / cm -2,以及形成这种记忆单元的方法。
摘要:
A method of fabricating a non-volatile memory device at least comprises steps as follows. First, a substrate on which a bottom dielectric layer is formed is provided. Then, impurities are introduced through the bottom dielectric layer to the substrate, so as to form a plurality of spaced doped regions on the substrate. The structure is thermally annealed for pushing the spaced doped regions to diffuse outwardly. After annealing, a charge trapping layer is formed on the bottom dielectric layer, and a top dielectric layer is formed on the charge trapping layer. Finally, a gate structure (such as a polysilicon layer and a silicide) is formed on the top dielectric layer.
摘要:
Methods of forming charge-trapping dielectric layer structures in semiconductor memory devices which comprise: (a) providing a semiconductor substrate; (b) forming an oxide layer on at least a portion of the substrate; (c) forming two or more source/drain regions in the substrate below the oxide layer; (d) re-oxidizing the oxide layer; (e) forming a charge-trapping dielectric layer on the oxide layer; and (f) forming an insulating layer on the charge-trapping dielectric layer; as well as methods which comprise: (a) providing a semiconductor substrate; (b) forming an oxide layer on at least a portion of the substrate in a dry atmosphere; (c) forming two or more source/drain regions in the substrate below the oxide layer; (d) forming a charge-trapping dielectric layer on the oxide layer; (e) forming an insulating layer on the charge-trapping dielectric layer; and (f) annealing the insulating layer in an atmosphere having a hydrogen content of less than about 0.01% are described.
摘要:
A method of fabricating a non-volatile memory device at least comprises steps as follows. First, a substrate on which a bottom dielectric layer is formed is provided. Then, impurities are introduced through the bottom dielectric layer to the substrate, so as to form a plurality of spaced doped regions on the substrate. The structure is thermally annealed for pushing the spaced doped regions to diffuse outwardly. After annealing, a charge trapping layer is formed on the bottom dielectric layer, and a top dielectric layer is formed on the charge trapping layer. Finally, a gate structure (such as a polysilicon layer and a silicide) is formed on the top dielectric layer.
摘要:
A method of operating a memory cell by applying a positive voltage to the gate sufficient to cause hole tunneling from the gate toward the charge storage layer is disclosed. The method is applied to a memory cell including a semiconductor layer having at least two source/drain regions disposed below a surface of the semiconductor layer and separated by a channel region. The memory cell also has a lower insulating layer disposed above the channel region; a charge storage layer disposed above the lower insulating layer; an upper insulating multi-layer structure disposed above the charge storage layer. The upper insulating multi-layer structure comprises a lower dielectric layer and an upper nitride layer disposed above the lower dielectric layer and the memory cell has a gate disposed above the upper insulating multi-layer structure.
摘要:
Memory cells comprising: a semiconductor substrate having at least two source/drain regions separated by a channel region; a charge-trapping structure disposed above the channel region; and a gate disposed above the charge-trapping structure; wherein the charge-trapping structure comprises a bottom insulating layer, a first charge-trapping layer, and a second charge-trapping layer, wherein an interface between the bottom insulating layer and the substrate has a hydrogen concentration of less than about 3×1011/cm−2, and methods for forming such memory cells.
摘要:
A semiconductor device includes a semiconductor substrate. The semiconductor substrate includes a first inversion region, a second inversion region, and a channel region between the first inversion region and the second inversion region. The semiconductor device further includes a control gate over the channel region and at least one sub-gate over the first and second inversion regions, wherein the control gate does not extend over the at least one sub-gate.
摘要:
Memory cells including a semiconductor layer having at least two source/drain regions disposed below a surface of the semiconductor layer and separated by a channel region; a lower insulating layer disposed above the channel region; a charge storage layer disposed above the lower insulating layer; an upper insulating multi-layer structure disposed above the charge storage layer, wherein the upper insulating multi-layer structure comprises a polysilicon material layer interposed between a first dielectric layer and a second dielectric layer; and a gate disposed above the upper insulating multi-layer structure are described along with arrays thereof and methods of operation.
摘要:
A method of operating a memory cell by applying a positive voltage to the gate sufficient to cause hole tunneling from the gate toward the charge storage layer is disclosed. The method is applied to a memory cell including a semiconductor layer having at least two source/drain regions disposed below a surface of the semiconductor layer and separated by a channel region. The memory cell also has a lower insulating layer disposed above the channel region; a charge storage layer disposed above the lower insulating layer; an upper insulating multi-layer structure disposed above the charge storage layer. The upper insulating multi-layer structure comprises a lower dielectric layer and an upper nitride layer disposed above the lower dielectric layer and the memory cell has a gate disposed above the upper insulating multi-layer structure.