B. He scite author profile

Increasing MOSFET performance requires scaling, the systematic reduction in device dimensions. Tunneling leakage, however, provides an absolute scaling limit for SiO2of about 1.5 nm. Power limitations and device reliability are likely to pose softer limits slightly above 2 nm. We have investigated the use of high permittivity materials such as TiO2, ZrO2, and their silicates as potential replacements for SiO2. We have synthesized titanium nitrate (Ti(NO3)4or TN), zirconium nitrate (Zr(NO3)4or ZrN), and hafnium nitrate (Hf(NO3)4or HfN) as hydrogen and carbon free deposition precursors. Several problems arise in the use of these films including the formation of an amorphous low permittivity interfacial layer. For TiO2this layer is formed by silicon up diffusion. Surface nitridation retards the formation of the interfacial layer. We discuss the effects of both thermal and remote plasma surface nitridation treatments on the properties of the film stack. ZrO2and HfO2appear to form a thermal layer of silicon oxide between the high permittivity film and the silicon and have excess oxygen in the bulk of the film.

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High permittivity gate insulators TiO/sub 2/ and ZrO/sub 2/

Hoilien

Smith

et al.

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B. He

Titanium dioxide (TiO₂)-based gate insulators

Group IVB metal oxides high permittivity gate insulators deposited from anhydrous metal nitrates

Group IVB Oxides as High Permittivity Gate Insulators

High permittivity gate insulators TiO/sub 2/ and ZrO/sub 2/

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B. He

Titanium dioxide (TiO2)-based gate insulators

Group IVB metal oxides high permittivity gate insulators deposited from anhydrous metal nitrates

Group IVB Oxides as High Permittivity Gate Insulators

High permittivity gate insulators TiO/sub 2/ and ZrO/sub 2/

Contact Info

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Titanium dioxide (TiO₂)-based gate insulators