Abstract: In sophisticated metallization systems, air gaps may be formed on the basis of a self-aligned patterning regime during which the conductive cap material of metal lines may be protected by providing one or more materials, which may subsequently be removed. Consequently, the etch behavior and the electrical characteristics of metal lines during the self-aligned patterning regime may be individually adjusted.

Abstract: When forming contact levels of sophisticated semiconductor devices, a superior bottom to top fill behavior may be accomplished by applying an activation material selectively in the lower part of the contact openings and using a selective deposition technique. Consequently, deposition-related irregularities, such as voids, may be efficiently suppressed even for high aspect ratio contact openings.

Abstract: A method of automatic deposition profile targeting for electrochemically depositing copper with a position-dependent controllable plating tool including the steps of depositing copper on a patterned product wafer, measuring an actual thickness profile of the deposited copper and generating respective measurement data, feeding the measurement data to an advanced process control (APC) model and calculating individual corrections for plating parameters in the position-dependent controllable plating tool.

Abstract: A conductive cap material for a copper region may be provided with enhanced etch resistivity by taking into consideration the standard electrode potential of one or more of the species contained therein. For example, instead of a conventionally used CoWP alloy, a modified alloy may be used, by substituting the cobalt species by a metallic species having a less negative standard electrode potential, such as nickel. Consequently, device performance may be enhanced, while at the same time the overall process complexity may be reduced.

Abstract: When forming contact levels of sophisticated semiconductor devices, a superior bottom to top fill behavior may be accomplished by applying an activation material selectively in the lower part of the contact openings and using a selective deposition technique. Consequently, deposition-related irregularities, such as voids, may be efficiently suppressed even for high aspect ratio contact openings.

Abstract: The present invention is directed to methods and apparatuses for removing bubbles from a process liquid. The process liquid can comprise a plating solution used in a plating tool. The process liquid is supplied to a tank. A plurality of streams of the process liquid are directed towards a surface of the process liquid from below. This can be done by feeding the process liquid to a flow distributor comprising a plurality of openings providing flow communication between an inner volume of the flow distributor and a main volume of the tank. Before leaving the tank through an outlet, the process liquid flows through a flow barrier.

Abstract: The present disclosure relates to automatic deposition profile targeting with a combined deposition/polishing apparatus which obtains matching deposition and subsequent polishing profiles by use of feedback data from an advanced polish endpoint system in an advanced process control system.

Abstract: By introducing an additional heat treatment prior to and/or after contacting a sensitive dielectric material with wet chemical agents, such as an electrolyte solution, enhanced performance with respect to leakage currents or dielectric strength may be accomplished during the fabrication of advanced semiconductor devices. For example, metal cap layers for metal lines may be provided on the basis of electroless deposition techniques, wherein the additional heat treatment(s) may provide the required electrical performance.

Abstract: By forming a protection layer on the back side of a substrate prior to any process sequences, which may deposit material or material residues on the back side, the respective back side uniformity may be significantly enhanced, thereby also increasing process efficiency of subsequent back side critical processes, such as lithography, back end of line processes and the like. In one illustrative embodiment, silicon carbide may be used as a material for forming a respective protection layer.

Abstract: In sophisticated metallization systems, air gaps may be formed on the basis of a self-aligned patterning regime during which the conductive cap material of metal lines may be protected by providing one or more materials, which may subsequently be removed. Consequently, the etch behavior and the electrical characteristics of metal lines during the self-aligned patterning regime may be individually adjusted.

Abstract: The present invention is directed to methods and apparatuses for removing bubbles from a process liquid. The process liquid can comprise a plating solution used in a plating tool. The process liquid is supplied to a tank. A plurality of streams of the process liquid are directed towards a surface of the process liquid from below. This can be done by feeding the process liquid to a flow distributor comprising a plurality of openings providing flow communication between an inner volume of the flow distributor and a main volume of the tank. Before leaving the tank through an outlet, the process liquid flows through a flow barrier.

Abstract: By introducing an additional heat treatment prior to and/or after contacting a sensitive dielectric material with wet chemical agents, such as an electrolyte solution, enhanced performance with respect to leakage currents or dielectric strength may be accomplished during the fabrication of advanced semiconductor devices. For example, metal cap layers for metal lines may be provided on the basis of electroless deposition techniques, wherein the additional heat treatment(s) may provide the required electrical performance.

Abstract: The present invention is directed to methods and apparatuses for removing bubbles from a process liquid. The process liquid can comprise a plating solution used in a plating tool. The process liquid is supplied to a tank. A plurality of streams of the process liquid are directed towards a surface of the process liquid from below. This can be done by feeding the process liquid to a flow distributor comprising a plurality of openings providing flow communication between an inner volume of the flow distributor and a main volume of the tank. Before leaving the tank through an outlet, the process liquid flows through a flow barrier.

Abstract: A conductive cap material for a copper region may be provided with enhanced etch resistivity by taking into consideration the standard electrode potential of one or more of the species contained therein. For example, instead of a conventionally used CoWP alloy, a modified alloy may be used, by substituting the cobalt species by a metallic species having a less negative standard electrode potential, such as nickel. Consequently, device performance may be enhanced, while at the same time the overall process complexity may be reduced.

Abstract: In an enhanced technique for electroless metal deposition, the substrate is heated to or above the operating temperature for the specific plating solution, while the plating solution may be maintained at a non-critical low temperature to substantially prevent spontaneous self-decomposition within the plating tool. Hence, significant advantages with respect to process control and cost of ownership may be achieved.

Abstract: By performing an electroless deposition and an electro deposition process in situ, highly reliable metallizations may be provided, wherein limitations with respect to contaminations and device scaling, encountered by conventional chemical vapor deposition (CVD), atomic layer deposition (ALD) and physical vapor deposition (PVD) techniques for the formation of seed layers may be overcome. In some embodiments, a barrier layer is also deposited on the basis of a wet chemical deposition process.

Abstract: The present disclosure relates to automatic deposition profile targeting with a combined deposition/polishing apparatus which obtains matching deposition and subsequent polishing profiles by use of feedback data from an advanced polish endpoint system in an advanced process control system.

Abstract: The present invention allows correcting malfunctions occurring in the formation of a cap layer on an electrical element in a semiconductor substrate. It is detected whether a malfunction occurred in the formation of the cap layer. If a malfunction in the formation of the cap layer was detected, a rework procedure is performed. The rework procedure can comprise exposing the substrate to a first acid and a second acid.

Abstract: A method of automatic deposition profile targeting for electrochemically depositing copper with a position-dependent controllable plating tool including the steps of depositing copper on a patterned product wafer, measuring an actual thickness profile of the deposited copper and generating respective measurement data, feeding the measurement data to an advanced process control (APC) model and calculating individual corrections for plating parameters in the position-dependent controllable plating tool.

Abstract: By forming a protection layer on the back side of a substrate prior to any process sequences, which may deposit material or material residues on the back side, the respective back side uniformity may be significantly enhanced, thereby also increasing process efficiency of subsequent back side critical processes, such as lithography, back end of line processes and the like. In one illustrative embodiment, silicon carbide may be used as a material for forming a respective protection layer.