摘要:
A capacitor including a dielectric structure, a lower electrode may be formed on a substrate. The dielectric structure may be formed on the lower electrode, and may include a first thin film, which may improve a morphology of the dielectric structure, and a second thin film, which may have at least one of an EOT larger than that of the first thin film and a dielectric constant higher than that of the first thin film. An upper electrode may be formed on the dielectric structure, and the dielectric structure may have an improved morphology and/or a higher dielectric constant.
摘要:
In a gate structure of a non-volatile memory device is formed, a tunnel insulating layer and a charge trapping layer are formed on a substrate. A composite dielectric layer is formed on the charge trapping layer and has a laminate structure in which first material layers including aluminum oxide and second material layers including hafnium oxide or zirconium oxide are alternately stacked. A conductive layer is formed on the composite dielectric layer and then a gate structure is formed by patterning the conductive layer, the composite dielectric layer, the charge trapping layer, and the tunnel insulating layer.
摘要:
A thin film structure and a capacitor using the film structure and methods for forming the same. The thin film structure may include a first film formed on a substrate using a first reactant and an oxidant for oxidizing the first reactant. A second film may be formed on the first film to suppress crystallization of the first film. A capacitor may include a dielectric layer, which may further include the first thin film and the second thin film.
摘要:
Methods of forming a zirconium hafnium oxide thin layer on a semiconductor substrate by supplying tetrakis(ethylmethylamino)zirconium ([Zr{N(C2H5)(CH3)}4], TEMAZ) and tetrakis(ethylmethylamino)hafnium ([Hf{N(C2H5)(CH3)}4], TEMAH) to a substrate are provided. The TEMAZ and the TEMAH may be reacted with an oxidizing agent. The thin layer including zirconium hafnium oxide may be used for a gate insulation layer in a gate structure, a dielectric layer in a capacitor, or a dielectric layer in a flash memory device.
摘要翻译:在半导体衬底上形成锆氧化铪薄层的方法是将四(乙基甲基氨基)锆([Zr(N 2 H 5 H 5) 3(H 2 O)2,H 2 O 3(H 2 O 3)3,TEMAZ)和四(乙基甲基氨基)铪([Hf(N(C 2 H 5) (CH 3 3)} 4 S,TEMAH)提供给基板。 TEMAZ和TEMAH可与氧化剂反应。 包括氧化铪的薄层可以用于栅极结构中的栅极绝缘层,电容器中的电介质层或闪存器件中的介电层。
摘要:
A method of manufacturing a semiconductor device can include forming a tunnel oxide layer on a substrate, forming a floating gate on the tunnel oxide layer and forming a dielectric layer pattern on the floating gate using an ALD process. The dielectric layer pattern can include a metal precursor that includes zirconium and an oxidant. A control gate can be formed on the dielectric layer pattern. The semiconductor device can include the dielectric layer pattern provided herein.
摘要:
A capacitor including a dielectric structure, a lower electrode may be formed on a substrate. The dielectric structure may be formed on the lower electrode, and may include a first thin film, which may improve a morphology of the dielectric structure, and a second thin film, which may have at least one of an EOT larger than that of the first thin film and a dielectric constant higher than that of the first thin film. An upper electrode may be formed on the dielectric structure, and the dielectric structure may have an improved morphology and/or a higher dielectric constant.
摘要:
A method of manufacturing a semiconductor device can include forming a tunnel oxide layer on a substrate, forming a floating gate on the tunnel oxide layer and forming a dielectric layer pattern on the floating gate using an ALD process. The dielectric layer pattern can include a metal precursor that includes zirconium and an oxidant. A control gate can be formed on the dielectric layer pattern. The semiconductor device can include the dielectric layer pattern provided herein.
摘要:
A thin film structure and a capacitor using the film structure and methods for forming the same. The thin film structure may include a first film formed on a substrate using a first reactant and an oxidant for oxidizing the first reactant. A second film may be formed on the first film to suppress crystallization of the first film. A capacitor may include a dielectric layer, which may further include the first thin film and the second thin film.
摘要:
In a gate structure of a non-volatile memory device is formed, a tunnel insulating layer and a charge trapping layer are formed on a substrate. A composite dielectric layer is formed on the charge trapping layer and has a laminate structure in which first material layers including aluminum oxide and second material layers including hafnium oxide or zirconium oxide are alternately stacked. A conductive layer is formed on the composite dielectric layer and then a gate structure is formed by patterning the conductive layer, the composite dielectric layer, the charge trapping layer, and the tunnel insulating layer.
摘要:
Methods of forming a zirconium hafnium oxide thin layer on a semiconductor substrate by supplying tetrakis(ethylmethylamino)zirconium ([Zr{N(C2H5)(CH3)}4], TEMAZ) and tetrakis(ethylmethylamino)hafnium ([Hf{N(C2H5)(CH3)}4], TEMAH) to a substrate are provided. The TEMAZ and the TEMAH may be reacted with an oxidizing agent. The thin layer including zirconium hafnium oxide may be used for a gate insulation layer in a gate structure, a dielectric layer in a capacitor, or a dielectric layer in a flash memory device.
摘要翻译:通过供应四(乙基甲基氨基)锆([Zr(N(C 2 H 5)(CH 3)} 4],TEMAZ)和四(乙基甲基氨基)铪([Hf(N(C 2 H 5))的方式在半导体衬底上形成氧化锆铪薄膜 )(CH 3)} 4],TEMAH)。 TEMAZ和TEMAH可与氧化剂反应。 包括氧化铪的薄层可以用于栅极结构中的栅极绝缘层,电容器中的电介质层或闪存器件中的介电层。