Abstract: By providing contact plugs having a lower plug portion, formed on the basis of well-established tungsten-based technologies, and an upper plug portion, which may comprise a highly conductive material such as copper or a copper alloy, a significant increase in conductivity of the contact structure may be achieved. For this purpose, after the deposition of a first dielectric layer of the inter-layer stack, a planarization process may be performed so as to allow the formation of the lower plug portions on the basis of tungsten, while, after the deposition of the second dielectric layer, a corresponding copper-based technology may be used for forming the upper plug portions of significantly enhanced conductivity.

Abstract: A semiconductor structure comprises a semiconductor substrate. A layer of an electrically insulating material is formed over the semiconductor substrate. An electrically conductive feature is formed in the layer of electrically insulating material. A first layer of a semiconductor material is formed between the electrically conductive feature and the layer of electrically insulating material.

Abstract: By selectively providing a buffer layer having an appropriate thickness, height differences occurring during the deposition of an SACVD silicon dioxide may be reduced during the formation of an interlayer dielectric stack of advanced semiconductor devices. The buffer material may be selectively provided after the deposition of contact etch stop layers of both types of internal stress or may be provided after the deposition of one type of dielectric material and may be used during the subsequent patterning of the other type of dielectric stop material as an efficient etch stop layer.

Abstract: By selectively providing a buffer layer having an appropriate thickness, height differences occurring during the deposition of an SACVD silicon dioxide may be reduced during the formation of an interlayer dielectric stack of advanced semiconductor devices. The buffer material may be selectively provided after the deposition of contact etch stop layers of both types of internal stress or may be provided after the deposition of one type of dielectric material and may be used during the subsequent patterning of the other type of dielectric stop material as an efficient etch stop layer.

Abstract: By selectively providing a buffer layer having an appropriate thickness, height differences occurring during the deposition of an SACVD silicon dioxide may be reduced during the formation of an interlayer dielectric stack of advanced semiconductor devices. The buffer material may be selectively provided after the deposition of contact etch stop layers of both types of internal stress or may be provided after the deposition of one type of dielectric material and may be used during the subsequent patterning of the other type of dielectric stop material as an efficient etch stop layer.

Abstract: By appropriately treating an interlayer dielectric material above P-channel transistors, the compressive stress may be significantly enhanced, which may be accomplished by expanding the interlayer dielectric material, for instance, by providing a certain amount of oxidizable species and performing an oxidation process.

Abstract: By providing a plurality of resistors and a plurality of test patterns within a leakage current test structure, the number of probe pads required for estimating the plurality of test patterns may be significantly reduced, wherein, in some illustrative embodiments, several test patterns may be simultaneously assessed on the basis of two probe pads. Consequently, process parameters and/or design parameters for manufacturing metallization structures of semiconductor devices may be efficiently monitored and controlled.

Abstract: By providing additional etch stop layers and/or etch protection layers, a corresponding etch process for forming contact openings for directly connecting polysilicon lines and active areas may be controlled in a highly reliable manner. Consequently, conductive line erosion and/or penetration into extension regions may be significantly reduced, thereby improving the reliability and performance of corresponding semiconductor devices.

Abstract: By providing large area metal plates in combination with respective peripheral areas of increased adhesion characteristics, delamination events may be effectively monitored substantially without negatively affecting the overall performance of the semiconductor device during processing and operation. In some illustrative embodiments, dummy vias may be provided at the periphery of a large area metal plate, thereby allowing delamination in the central area while substantially avoiding a complete delamination of the metal plate. Consequently, valuable information with respect to mechanical characteristics of the metallization layer as well as process flow parameters may be efficiently monitored.

Abstract: By partially removing an etch stop layer prior to the formation of a first contact etch stop layer, a superior stress transfer mechanism may be provided in an integration scheme for generating strain by means of contact etch stop layers. Thus, a semiconductor device having different types of transistors may be provided, in which a high degree of metal silicide integrity as well as a highly efficient stress transfer mechanism is achieved.

Abstract: A semiconductor device comprises metal lines in a specific metallization layer which have a different thickness and thus a different resistivity in different device regions. In this way, in high density areas of the device, metal lines of reduced thickness may be provided in order to comply with process requirements for achieving a minimum pitch between neighboring metal lines, while in other areas having less critical constraints with respect to minimum pitch, a reduced resistivity may be obtained at reduced lateral dimensions compared to conventional strategies. For this purpose, the dielectric material of the metallization layer may be appropriately patterned prior to forming respective trenches or the etch behavior of the dielectric material may be selectively adjusted in order to obtain differently deep trenches.

Abstract: The present invention relates to polypeptides having antimicrobial activity and polynucleotides having a nucleotide sequence which encodes for the polypeptides. The invention also relates to nucleic acid constructs, vectors, and host cells comprising the nucleic acid constructs as well as methods for producing and using the polypeptides.

Abstract: By forming a metal line extending through the entire interlayer dielectric material in resistance sensitive metallization layers, enhanced uniformity of these metallization layers may be obtained. The patterning of respective via openings may be accomplished on the basis of a recess formed in a cap layer, which additionally acts as an efficient etch stop layer during the patterning of the trenches, which extend through the entire interlayer dielectric material. Consequently, for a given design width of metal lines in resistance sensitive metallization layers, a maximum cross-sectional area may be obtained for the metal line with a high degree of process uniformity irrespective of a variation of the via density.

Abstract: The invention provides cells and methods of circularizing linear DNA molecules. The cell is an isolated Escherichia coli cell which transiently expresses the Cre recombinase protein from an integrated Cre recombinase gene, and which is at least transiently repressed for RecBCD activity. The cells are used in a method of circularizing a linear DNA molecule comprising at least two loxP sites. The DNA molecule is introduced into the cells, and the linear DNA molecule is joined at said loxp sites.

Abstract: By selectively providing a buffer layer having an appropriate thickness, height differences occurring during the deposition of an SACVD silicon dioxide may be reduced during the formation of an interlayer dielectric stack of advanced semiconductor devices. The buffer material may be selectively provided after the deposition of contact etch stop layers of both types of internal stress or may be provided after the deposition of one type of dielectric material and may be used during the subsequent patterning of the other type of dielectric stop material as an efficient etch stop layer.

Abstract: A semiconductor structure comprises a semiconductor substrate. A layer of an electrically insulating material is formed over the semiconductor substrate. An electrically conductive feature is formed in the layer of electrically insulating material. A first layer of a semiconductor material is formed between the electrically conductive feature and the layer of electrically insulating material.

Abstract: By forming a direct contact structure connecting, for instance, a polysilicon line with an active region on the basis of an increased amount of metal silicide by removing the sidewall spacers prior to the silicidation process, a significantly increased etch selectivity may be achieved during the contact etch stop layer opening. Hence, undue etching of the highly doped silicon material of the active region would be suppressed. Additionally or alternatively, an appropriately designed test structure is disclosed, which may enable the detection of electrical characteristics of contact structures formed in accordance with a specified manufacturing sequence and on the basis of specific design criteria.

Abstract: The present invention provides methods, kits, and compositions for the detection of an analyte. The invention is particularly suited for the detection and quantification of an analyte in a sample. In the methods of the invention a complex is formed between an analyte specific binding agent and an analyte. The analyte specific agents are coupled to an enzyme possessing an activity that produces a PCR template indicative of the presence of the analyte. Amplification and detection of the PCR template yields a sensitive and quantitative measurement of analyte concentration.

Abstract: The present invention relates to polypeptides having antimicrobial activity and polynucleotides having a nucleotide sequence which encodes for the polypeptides. The invention also relates to nucleic acid constructs, vectors, and host cells comprising the nucleic acid constructs as well as methods for producing and using the polypeptides.

Abstract: By appropriately treating an interlayer dielectric material above P-channel transistors, the compressive stress may be significantly enhanced, which may be accomplished by expanding the interlayer dielectric material, for instance, by providing a certain amount of oxidizable species and performing an oxidation process.