摘要:
Compounds of Ta and N, potentially including further elements, and with a resistivity below about 20 mΩcm and with the elemental ratio of N to Ta greater than about 0.9 are disclosed for use as gate materials in field effect devices. A representative embodiment of such compounds, TaSiN, is stable at typical CMOS processing temperatures on SiO2 containing dielectric layers and high-k dielectric layers, with a workfunction close to that of n-type Si. Metallic Ta—N compounds are deposited by a chemical vapor deposition method using an alkylimidotris(dialkylamido)Ta species, such as tertiaryamylimidotris(dimethylamido)Ta (TAIMATA), as Ta precursor. The deposition is conformal allowing for flexible introduction of the Ta—N metallic compounds into a CMOS processing flow. Devices processed with TaN or TaSiN show near ideal characteristics.
摘要:
A compound metal comprising TiC which is a p-type metal having a workfunction of about 4.75 to about 5.3, preferably about 5, eV that is thermally stable on a gate stack comprising a high k dielectric and an interfacial layer is provided as well as a method of fabricating the TiC compound metal. Furthermore, the TiC metal compound of the present invention is a very efficient oxygen diffusion barrier at 1000° C. allowing very aggressive equivalent oxide thickness (EOT) and inversion layer thickness scaling below 14 Å in a p-metal oxide semiconductor (pMOS) device.
摘要:
A compound metal comprising HfSiN which is a n-type metal having a workfunction of about 4.0 to about 4.5, preferably about 4.3, eV which is thermally stable on a gate stack comprising a high k dielectric and an interfacial layer. Furthermore, after annealing the stack of HfSiN/high k dielectric/interfacial layer at a high temperature (on the order of about 1000° C.), there is a reduction of the interfacial layer, thus the gate stack produces a very small equivalent oxide thickness (12 Å classical), which cannot be achieved using TaSiN.
摘要:
A compound metal comprising HfSiN which is a n-type metal having a workfunction of about 4.0 to about 4.5, preferably about 4.3, eV which is thermally stable on a gate stack comprising a high k dielectric and an interfacial layer. Furthermore, after annealing the stack of HfSiN/high k dielectric/interfacial layer at a high temperature (on the order of about 1000° C.), there is a reduction of the interfacial layer, thus the gate stack produces a very small equivalent oxide thickness (12 Å classical), which cannot be achieved using TaSiN.
摘要:
A compound metal comprising MOxNy which is a p-type metal having a workfunction of about 4.75 to about 5.3, preferably about 5, eV that is thermally stable on a gate stack comprising a high k dielectric and an interfacial layer is provided as well as a method of fabricating the MOxNy compound metal. Furthermore, the MOxNy metal compound of the present invention is a very efficient oxygen diffusion barrier at 1000° C. allowing very aggressive equivalent oxide thickness (EOT) and inversion layer thickness scaling below 14 Å in a p-metal oxide semiconductor (PMOS) device. In the above formula, M is a metal selected from Group IVB, VB, VIB or VIIB of the Periodic Table of Elements, x is from about 5 to about 40 atomic % and y is from about 5 to about 40 atomic %.
摘要:
A method of fabricating a dielectric film comprising atoms of Si, C, O and H (hereinafter SiCOH) that has improved insulating properties as compared with prior art dielectric films, including prior art SiCOH dielectric films that are not subjected to the inventive deep ultra-violet (DUV) is disclosed. The improved properties include reduced current leakage which is achieved without adversely affecting (increasing) the dielectric constant of the SiCOH dielectric film. In accordance with the present invention, a SiCOH dielectric film exhibiting reduced current leakage and improved reliability is obtained by subjecting an as deposited SiCOH dielectric film to a DUV laser anneal. The DUV laser anneal step of the present invention likely removes the weakly bonded C from the film, thus improving leakage current.
摘要:
The present invention relates to complementary metal-oxide-semiconductor (CMOS) circuits that each contains at least a first and a second gate stacks. The first gate stack is located over a first device region (e.g., an n-FET device region) in a semiconductor substrate and comprises at least, from bottom to top, a gate dielectric layer, a metallic gate conductor, and a silicon-containing gate conductor. The second gate stack is located over a second device region (e.g., a p-FET device region) in the semiconductor substrate and comprises at least, from bottom to top, a gate dielectric layer and a silicon-containing gate conductor. The first and second gate stacks can be formed over the semiconductor substrate in an integrated manner by various methods of the present invention.
摘要:
A semiconductor structure and a method of fabricating the same wherein the structure includes at least one nFET device and a least one pFET device, where at least one of the devices is a thinned Si-containing gated device and the other device is a metal gated device are provided. That is, a semiconductor structure is provided wherein at least one of the nFET or pFET devices includes a gate electrode stack comprising a thinned Si-containing electrode, i.e., polysilicon electrode, and an overlying first metal, while the other device includes a gate electrode stack that includes at least the first metal gate, without the thinned Si-containing electrode.
摘要:
A structure, and method of fabrication, for high performance semiconductor field effect devices is disclosed. These devices are having a gate dielectric containing a germanate material. In representative embodiments the gate dielectric is essentially a layer of a germanate material. The chemical composition of such materials is MezGexOy, where Me stands for a metal with high ion polarizability, and x, y, and z are non-zero integers. Such a gate dielectric is advantageous, from the point of view of dielectric constant, barrier height, carrier mobility, thermal stability, and interface stability.
摘要翻译:公开了一种用于高性能半导体场效应器件的结构和制造方法。 这些器件具有含有锗酸盐材料的栅极电介质。 在代表性的实施例中,栅极电介质基本上是锗酸盐材料层。 这种材料的化学成分是Me z O x O x O y,其中Me代表具有高离子极化率的金属,x,y ,z是非零整数。 从介电常数,势垒高度,载流子迁移率,热稳定性和界面稳定性的观点来看,这种栅极电介质是有利的。