摘要:
A method for fabricating a DRAM capacitor stack is described wherein the dielectric material is a multi-layer stack formed from a highly-doped material combined with a lightly or non-doped material. The highly-doped material remains amorphous with a crystalline content of less than 30% after an annealing step. The lightly or non-doped material becomes crystalline with a crystalline content of equal to or greater than 30% after an annealing step. The dielectric multi-layer stack maintains a high k-value while minimizing the leakage current and the EOT value.
摘要:
A method for fabricating a DRAM capacitor stack is described wherein the dielectric material is a multi-layer stack formed from a highly-doped material combined with a lightly or non-doped material. The highly-doped material remains amorphous with a crystalline content of less than 30% after an annealing step. The lightly or non-doped material becomes crystalline with a crystalline content of equal to or greater than 30% after an annealing step. The dielectric multi-layer stack maintains a high k-value while minimizing the leakage current and the EOT value.
摘要:
A method according to the present invention includes forming a silicon nitride film on a lower electrode, oxidizing the silicon nitride film, and forming a dielectric film including aluminum on the oxidized silicon nitride film.
摘要:
Disclosed is a method of manufacturing a semiconductor device formed by laminating a capacitor including a bottom metal electrode, a capacitive insulating film, and an upper metal electrode. When the capacitive insulating film is formed by performing a first step of forming a first dielectric layer on the bottom metal electrode by a vapor phase film forming method using a precursor gas that contains constituent elements of a dielectric; and a second step of forming a second dielectric layer on the first dielectric layer by a vapor phase film forming method using a precursor gas that contains constituent elements of a dielectric, a film forming temperature in the first step is set so as to be lower than a film forming temperature in the second step.
摘要:
A semiconductor device includes: a semiconductor substrate; a memory cell selection transistor that is formed on the semiconductor substrate and has a source and a drain; a contact plug; a polysilicon interlayer film that is formed above the memory cell selection transistor and has a cylinder-shaped through-hole; and a storage capacity part that is formed in the through-hole and is connected to the source and the drain of the memory cell selection transistor via the contact plug, wherein a boundary between a bottom and a side wall of the through-hole has a curved surface.
摘要:
A semiconductor device includes memory cells each having an MISFET for memory selection formed on one major surface of a semiconductor substrate and a capacitive element comprised of a lower electrode electrically connected at a bottom portion to one of a source and drain of the MISFET for memory selection via a first metal layer and an upper electrode formed on the lower electrode via a capacitive insulating film. The lower electrode has a thickness of 30 nm or greater at the bottom portion thereof. Sputtering with a high ionization ratio and high directivity, such as PCM, is adapted to the formation of the lower electrode to make only the bottom portion of a capacitor thicker.
摘要:
On the back side of a base body, three layers of polysilicon layer are formed. These polysilicon layers contain boron. A boron concentration C.sub.B(1), C.sub.B(2) and C.sub.B(3) of the first, second and third polysilicon layers from the base body side have a relationship of C.sub.B(1) .ltoreq.C.sub.B(2) .ltoreq.C.sub.B(3). On the other hand, between the polysilicon layers, silicon oxide layers are formed respectively. Upon fabrication of a semiconductor device, at first, a gettering heat treatment is effected for the substrate under a given condition. Thus, contaminating impurity is captured at the grain boundary of polysilicon layers formed on the back side of the base body. Next, the polysilicon formed at the most back side is removed by etching. By this, contaminated impurity is removed from the semiconductor substrate.
摘要:
A semiconductor device includes: a semiconductor substrate; a memory cell selection transistor that is formed on the semiconductor substrate and has a source and a drain; a contact plug; a polysilicon interlayer film that is formed above the memory cell selection transistor and has a cylinder-shaped through-hole; and a storage capacity part that is formed in the through-hole and is connected to the source and the drain of the memory cell selection transistor via the contact plug, wherein a boundary between a bottom and a side wall of the through-hole has a curved surface.
摘要:
Disclosed is a method of manufacturing a semiconductor device formed by laminating a capacitor including a bottom metal electrode, a capacitive insulating film, and an upper metal electrode. When the capacitive insulating film is formed by performing a first step of forming a first dielectric layer on the bottom metal electrode by a vapor phase film forming method using a precursor gas that contains constituent elements of a dielectric; and a second step of forming a second dielectric layer on the first dielectric layer by a vapor phase film forming method using a precursor gas that contains constituent elements of a dielectric, a film forming temperature in the first step is set so as to be lower than a film forming temperature in the second step.
摘要:
A semiconductor device includes memory cells each having an MISFET for memory selection formed on one major surface of a semiconductor substrate and a capacitive element comprised of a lower electrode electrically connected at a bottom portion to one of a source and drain of the MISFET for memory selection via a first metal layer and an upper electrode formed on the lower electrode via a capacitive insulating film. The lower electrode has a thickness of 30 nm or greater at the bottom portion thereof. Sputtering with a high ionization ratio and high directivity, such as PCM, is adapted to the formation of the lower electrode to make only the bottom portion of a capacitor thicker.