摘要:
A salicide process using a bi-metal layer and method of fabricating a semiconductor substrate using the same are disclosed herein. The salicide process includes forming a main metal layer on a semiconductor substrate containing silicon. A main metal alloy layer containing at least one species of alloy element is formed on the main metal layer. The semiconductor substrate having the main metal layer and the main metal alloy layer is annealed to form a main metal alloy silicide layer. According to an exemplary embodiment of the present invention, the main metal layer may be formed of a nickel (Ni) layer, and the main metal alloy layer may be formed of a nickel tantalum alloy layer. In this case, a nickel tantalum silicide layer having improved thermal stability and electrical characteristics are formed.
摘要:
A semiconductor device having a self-aligned silicide layer and a method thereof are provided. The device includes a device isolation layer formed on the substrate to define an active region and a gate pattern crossing over the active region. A spacer insulating layer is formed on both sidewalls of the gate pattern. First and second salicide layers are formed on an upper portion of the gate pattern, and the first salicide layer is formed on the active region between the spacer insulating layer and the device isolation layer. The first and the second salicide layers on the gate pattern are alternately formed to be connected with each other. The first salicide layer is agglomeratedly formed on a narrow gate pattern, and the second salicide layer is formed within interrupted portions of the first salicide layer, thereby forming a patched salicide layer.
摘要:
Provided are exemplary methods for forming a semiconductor devices incorporating silicide layers formed at temperatures below about 700° C., such as nickel silicides, that are formed after completion of a silicide blocking layer (SBL). The formation of the SBL tends to deactivate dopant species in the gate, lightly-doped drain and/or source/drain regions. The exemplary methods include a post-SBL activation anneal either in place of or in addition to the traditional post-implant activation anneal. The use of the post-SBL anneal produces CMOS transistors having properties that reflect reactivation of sufficient dopant to overcome the SBL process effects, while allowing the use of lower temperature silicides, including nickel silicides and, in particular, nickel silicides incorporating a minor portion of an alloying metal, such as tantalum, the exhibits reduced agglomeration and improved temperature stability.
摘要:
Methods of fabricating a semiconductor device having a MOS transistor with a strained channel are provided. The method includes forming a MOS transistor at a portion of a semiconductor substrate. The MOS transistor is formed to have source/drain regions spaced apart from each other and a gate electrode located over a channel region between the source/drain regions. A stress layer is formed on the semiconductor substrate having the MOS transistor. The stress layer is then annealed to convert a physical stress of the stress layer into a tensile stress or increase a tensile stress of the stress layer.
摘要:
Provided are exemplary methods for forming a nickel silicide layer and semiconductor devices incorporating a nickel silicide layer that provides increased stability for subsequent processing at temperatures above 450° C. In particular, the nickel silicide layer is formed from a nickel alloy having a minor portion of an alloying metal, such as tantalum, and exhibits reduced agglomeration and retarded the phase transition between NiSi and NiSi2 to suppress increases in the sheet resistance and improve the utility for use with fine patterns. As formed, the nickel silicide layer includes both a lower layer consisting primarily of nickel and silicon and a thinner upper layer that incorporates the majority of the alloying metal.
摘要:
Provided are exemplary methods for forming a nickel silicide layer and semiconductor devices incorporating a nickel silicide layer that provides increased stability for subsequent processing at temperatures above 450° C. In particular, the nickel silicide layer is formed from a nickel alloy having a minor portion of an alloying metal, such as tantalum, and exhibits reduced agglomeration and retarded the phase transition between NiSi and NiSi2 to suppress increases in the sheet resistance and improve the utility for use with fine patterns. As formed, the nickel silicide layer includes both a lower layer consisting primarily of nickel and silicon and a thinner upper layer that incorporates the majority of the alloying metal.
摘要:
A nickel salicide process includes preparing a substrate having a silicon region and an insulating region containing silicon. Nickel is deposited on the substrate, and the nickel is annealed at a first temperature of 300° C. to 380° C. to selectively form a mono-nickel mono-silicide layer on the silicon region and to leave an unreacted nickel layer on the insulating region. The unreacted nickel layer is selectively removed to expose the insulating region and to leave the mono-nickel mono-silicide layer on the silicon region. Subsequently, the mono-nickel mono-silicide layer is annealed at a second temperature which is higher than the first temperature to form a thermally stable mono-nickel mono-silicide layer and without a phase transition of the mono-nickel mono-silicide layer.
摘要:
Disclosed are dual gate CMOS devices and methods for fabricating such devices. The dual gate structures are produced by forming a first gate electrode having first conductive stack on transistors of a first channel type and forming a second gate electrode having a second conductive stack on transistors of a second channel type, wherein the first and second conductive stacks have different compositions for including different work functions (Φ) in the respective transistors. At least one of the first and second conductive stacks will include metal(s) and/or metal compound(s) from which, when subjected to an appropriate thermal treatment, the metal(s) will diffuse to the interface formed between in the gate dielectric layer and the gate electrode and thereby modify the electrical properties of the associated transistors as reflected in, for example, a Vfb shift.
摘要:
A dual gate electrode semiconductor device and related method of formation are disclosed. The semiconductor device comprises a first gate electrode made of a metal silicide layer and a second gate electrode made of a metal layer, wherein the metal suicide is formed from the same metal as the metal layer.
摘要:
An event display apparatus and method of a mobile terminal are disclosed. The event display method of a mobile terminal includes: detecting events in the mobile terminal; displaying time graphics on a screen; and positioning the detected events on the time graph according to their types. Various scattered events in the mobile terminal are detected and displayed on the time graphics indicating time according to types of the detected events, so the events can be easily viewed and managed.