摘要:
A low-temperature process for forming a highly conformal barrier film during integrated circuit manufacture by low pressure chemical vapor deposition (LPCVD). The process includes the following steps. First, the process provides ammonia and a silicon-containing gas selected from the group consisting of silane, dichlorosilane, bistertiarybutylaminosilanc, hexachlorodisilane, and mixtures of those compositions. The ratio of the volume of ammonia to the volume of the silicon-containing gas is adjusted to yield silicon concentrations greater than 43 atomic percent in the resultant film. The process applies a deposition temperature of 550° C. to 720° C. The ammonia and the silicon-containing gas are reacted at the deposition temperature to form a silicon-rich nitride film less than 200 Å thick. Finally, the silicon nitride film is deposited by low pressure chemical vapor deposition.
摘要:
Semiconductor devices having deep trenches with fill material therein having low resistivity are provided along with methods of fabricating such semiconductor devices.
摘要:
The present invention provides a gate stack structure that has high mobilities and low interfacial charges as well as semiconductor devices, i.e., metal oxide semiconductor field effect transistors (MOSFETs) that include the same. In the semiconductor devices, the gate stack structure of the present invention is located between the substrate and an overlaying gate conductor. The present invention also provides a method of fabricating the inventive gate stack structure in which a high temperature annealing process (on the order of about 800° C.) is employed. The high temperature anneal used in the present invention provides a gate stack structure that has an interface state density, as measured by charge pumping, of about 8×1010 charges/cm2 or less, a peak mobility of about 250 cm2V-s or greater and substantially no mobility degradation at about 6.0×1012 inversion charges/cm2 or greater.
摘要翻译:本发明提供具有高迁移率和低界面电荷的栅叠层结构,以及包括其的半导体器件即金属氧化物半导体场效应晶体管(MOSFET)。 在半导体器件中,本发明的栅极堆叠结构位于衬底和覆盖栅极导体之间。 本发明还提供一种制造本发明的栅叠层结构的方法,其中采用了高温退火工艺(大约800℃)。 本发明中使用的高温退火提供了一种栅极叠层结构,其具有约8×10 10电荷/ cm 2或更小的峰值迁移率,约250cm 2 / s或更大的峰迁移率的通过电荷泵浦测量的界面状态密度,以及 在大约6.0×10 12反转电荷/ cm 2或更大时基本上没有迁移率降解。
摘要:
A carrier for a semiconductor component is provided having passive components integrated in its substrate. The passive components include decoupling components, such as capacitors and resistors. A set of connections is integrated to provide a close electrical proximity to the supported components.
摘要:
A carrier for a semiconductor component is provided having passive components integrated in its substrate. The passive components include decoupling components, such as capacitors and resistors. A set of connections is integrated to provide a close electrical proximity to the supported components.
摘要:
Disclosed herein is a method, in an integrated, of forming a high-K node dielectric of a trench capacitor and a trench sidewall device dielectric at the same time. The method includes forming a trench in a single crystal layer of a semiconductor substrate, and forming an isolation collar along a portion of the trench sidewall, wherein the collar has a top below the top of the trench in the single crystal layer. Then, at the same time, a high-K dielectric is formed along the trench sidewall, the high-K dielectric extending in both an upper portion of the trench including above the isolation collar and in a lower portion of the trench below the isolation collar. The top of the isolation collar is then etched back to expose a portion of the single crystal substrate along the sidewall, and then, a node electrode is formed in conductive contact with the exposed sidewall and also in contact with the high-K dielectric in the lower portion, such that the high-K dielectric remains as a trench sidewall dielectric in the upper portion of the sidewall. In a DRAM memory cell structure, the trench sidewall dielectric may then be used as a gate dielectric of a vertical transistor which accesses the trench storage capacitor in the trench.
摘要:
The present invention is a method and structure for fabricating a trench capacitor within a semiconductor substrate having a buried plate electrode formed of metal silicide. A collar is formed in a trench etched into a substrate; a conformal metal film is deposited thereover, and is annealed to form a silicide that is self-aligned to the collar. Silicide will not be formed on the collar, pads and other areas where the silicon is not directly exposed and hence the metal layer can be removed from these areas by selective etching.
摘要:
A method of fabricating a silicon-containing oxide layer that includes providing a chemical oxide layer on a surface of a semiconductor substrate, removing the chemical oxide layer in an oxygen-free environment at a temperature of 1000° C. or greater to provide a bare surface of the semiconductor substrate, and introducing an oxygen-containing gas at a flow rate to the bare surface of the semiconductor substrate for a first time period at the temperature of 1000° C. The temperature is then reduced to room temperature during a second time period while maintaining the flow rate of the oxygen containing gas to provide a silicon-containing oxide layer having a thickness ranging from 0.5 Å to 10 Å.
摘要:
A semiconductor device is fabricated using a micro-masking structure. The micro-masking structure is formed along the sidewalls of a trench in a semiconductor substrate or along the sidewalls of an electrode disposed over the semiconductor substrate. The micro-masking structure exposes portions of the sidewalls and covers other portions of the sidewalls. Then the exposed portions of the sidewalls are recessed to form a plurality of recesses such that the sidewalls have an increase surface area. After the recessing, the micro-masking structure is removed. The recessed sidewalls provide enhanced capacitance.
摘要:
A method and structure for an integrated circuit structure that includes introducing precursors on a substrate, oxidizing the precursors and heating the precursors. The introducing and the oxidizing of the precursors is preformed in a manner so as to form an amorphous glass dielectric on the substrate. The process preferably includes, before introducing the precursors on the substrate, cleaning the substrate. The introducing of precursors is performed in molar ratios consistent with formation of glass films and may comprise an atomic level chemical vapor deposition of La2O3 and Al2O3 using ratios between 20%-50% La2O3 and 50%-80%
摘要翻译:一种用于集成电路结构的方法和结构,其包括在衬底上引入前体,氧化前体并加热前体。 前体的引入和氧化以使得在衬底上形成无定形玻璃电介质的方式进行。 在将前体引入基片之前,该方法优选地包括清洁基底。 前体的引入以与玻璃膜的形成一致的摩尔比进行,并且可以包括使用20%-50%La 2 O 3和50%-80%之间的比率的La 2 O 3和Al 2 O 3的原子级化学气相沉积