摘要:
Method for reducing resist poisoning. The method includes the steps of forming a first structure in a dielectric on a substrate, reducing amine related contaminants from the dielectric and the substrate prior to a formation of a second structure on the substrate such that the amine related contaminates will not diffuse out from either the substrate or the dielectric, wherein the reducing utilizes a plasma treatment which one of chemically ties up the amine related contaminates and binds, traps, or consumes the amine related contaminates during subsequent processing steps, forming the second structure on the substrate, and after the forming of the first structure, preventing poisoning of a resist layer in subsequent processing by the reducing.
摘要:
A method for reducing resist poisoning is provided. The method includes forming a first structure in a dielectric on a substrate and reducing amine related contaminants from the dielectric and the substrate created after the formation of the first structure. The method further includes forming a second structure in the dielectric. A first organic film may be formed on the substrate which is then heated and removed from the substrate to reduce the contaminant. Alternatively, a plasma treatment or cap may be provided. A second organic film is formed on the substrate and patterned to define a second structure in the dielectric.
摘要:
Method for reducing resist poisoning. The method includes the steps of forming a first structure in a dielectric on a substrate, reducing amine related contaminants from the dielectric and the substrate prior to a formation of a second structure on the substrate such that the amine related contaminates will not diffuse out from either the substrate or the dielectric, wherein the reducing utilizes a plasma treatment which one of chemically ties up the amine related contaminates and binds, traps, or consumes the amine related contaminates during subsequent processing steps, forming the second structure on the substrate, and after the forming of the first structure, preventing poisoning of a resist layer in subsequent processing by the reducing.
摘要:
Method for reducing resist poisoning. The method includes the steps of forming a first structure in a dielectric on a substrate, reducing amine related contaminants from the dielectric and the substrate prior to a formation of a second structure on the substrate such that the amine related contaminates will not diffuse out from either the substrate or the dielectric, wherein the reducing utilizes a plasma treatment which one of chemically ties up the amine related contaminates and binds, traps, or consumes the amine related contaminates during subsequent processing steps, forming the second structure on the substrate, and after the forming of the first structure, preventing poisoning of a resist layer in subsequent processing by the reducing.
摘要:
A method for reducing resist poisoning is provided. The method includes forming a first structure in a dielectric on a substrate and reducing amine related contaminants from the dielectric and the substrate created after the formation of the first structure. The method further includes forming a second structure in the dielectric. A first organic film may be formed on the substrate which is then heated and removed from the substrate to reduce the contaminant. Alternatively, a plasma treatment or cap may be provided. A second organic film is formed on the substrate and patterned to define a second structure in the dielectric.
摘要:
Structures with improved solder bump connections and methods of fabricating such structures are provided herein. The structure includes a trench formed in a dielectric layer which has at least a portion thereof devoid of a fluorine boundary layer. The structure further includes a copper wire in the trench having at least a bottom portion thereof in contact with the non-fluoride boundary layer of the trench. A lead free solder bump is in electrical contact with the copper wire.
摘要:
Structures with improved solder bump connections and methods of fabricating such structures are provided herein. The structure includes a trench formed in a dielectric layer which has at least a portion thereof devoid of a fluorine boundary layer. The structure further includes a copper wire in the trench having at least a bottom portion thereof in contact with the non-fluoride boundary layer of the trench. A lead free solder bump is in electrical contact with the copper wire.
摘要:
A method for reducing resist poisoning is provided. The method includes forming a first structure in a dielectric on a substrate and reducing amine related contaminants from the dielectric and the substrate created after the formation of the first structure. The method further includes forming a second structure in the dielectric. A first organic film may be formed on the substrate which is then heated and removed from the substrate to reduce the contaminant. Alternatively, a plasma treatment or cap may be provided. A second organic film is formed on the substrate and patterned to define a second structure in the dielectric.
摘要:
Monitoring a process sector in a production facility includes establishing a tool defect index associated with a process sector in the production facility. The tool defect index includes a signal representing a defect factor associated with a tool in the process sector. Monitoring the process also requires determining whether the defect factor is a known defect factor or an unknown defect factor, and analyzing a unit from the tool if the defect factor is an unknown defect factor. Monitoring the process further requires identifying at least one defect on the unit from the tool, establishing that the at least one defect is a significant defect, determining cause of the significant defect, and creating an alert indicating that the tool associated with the process sector is producing units having significant defects.
摘要:
A probe assembly for a process vessel for viewing the inside of the vessel, the probe assembly includes an elongated bracket, an elongated frame, an ICPC unit, and a camera unit. The elongated bracket has a front face and a rear face, the elongated bracket having an upper portion and a lower portion, the lower portion has a first aperture. The elongated frame has a proximal end and a distal end, the distal end of the elongated frame is coupled to the upper portion of the front face of the bracket. The ICPC unit includes a housing that has a front wall, a rear wall, and side wall extended between the front wall and the rear wall, the front wall has a second aperture, the rear wall has a third aperture. The ICPC unit further includes an actuator enclosed in the housing and an elongated tube operably coupled to the actuator, the tube extends through the second aperture and the first aperture away from the rear face of the bracket, the actuator configured to reciprocate the tube between an extended position and a retracted position. The camera unit includes a camera enclosure housing a camera, wherein the actuation member is configured to reciprocate the camera unit between the engage mode and stand-by mode, in the engage mode, the lens' hood is within the tube of the ICPC unit, and in the stand-by mode, the camera unit is away from the ICPC unit towards the proximal end of the elongated frame.