The present invention provides a means capable of improving a residue removing effect and improving storage stability in a composition for surface treatment which is used for reducing residues on a surface of an object to be polished after being polished chemical mechanical polishing. The present invention relates to a composition for surface treatment, wherein the composition contains a solvent and a dissolved gas, a concentration of the dissolved gas is 0.01 mg/L or more and 10 mg/L or less with respect to a total volume of the composition and the composition is used for reducing residues on a surface of an object to be polished after being polished by chemical mechanical polishing.

The present application provides a method and a device of chemical mechanical polishing (CMP). The method comprises providing a semiconductor wafer to be subjected to polishing; conducting a CMP process to the wafer, wherein the wafer is on a first plane; conducting a hanging treatment, wherein, in the hanging treatment, the wafer is on a second plane above the first plane, the wafer is hanged to expose the lower surface, and the wafer is in rotation. According to the present application, the hanging treatment can remove the slurry, the polishing particles and byproducts from the wafer surface, therefore, it prevents from the adverse effects caused by the polishing particles and byproducts on the wafer in the following process.

Provided is a means capable of sufficiently removing organic residues on the surface of an object to be polished after polishing. A surface treatment composition includes a polymer having a building block represented by Formula (1) in [Chemical Formula 1], a chelating agent, and water and is used to treat the surface of an object to be polished after polishing, and the chelating agent has at least one of a phosphonic acid group and a carboxylic acid group.

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In Formula (1), R.sup.1 is a hydrocarbon group having 1 to 5 carbon atoms; and R.sup.2 is a hydrogen atom or a hydrocarbon group having 1 to 3 carbon atoms.

In general, the invention provides high pH cleaning compositions for dielectric surfaces such as PETEOS, SiO.sub.2, thermal oxide, silicon nitride, silicon, etc. The compositions of the invention afford superior surface wetting, dispersion of particles and organic residues, and prevents redeposition and re-agglomeration of the dispersed residue during cleaning to afford superior cleaning and low defectivity.

A composition for cleaning a microelectronic device substrate is provided. The composition is useful for cleaning in-process microelectronic device substrates possessing exposed cobalt, molybdenum, copper, molybdenum, tungsten, and dielectric surfaces. Also provided is a method for cleaning such devices and a kit comprising one or more of the components of the composition.

The present technology generally relates to liquid compositions for cleaning post-CMP semiconductor surfaces, and methods of cleaning a semiconductor surface having ceria (CeO.sub.2) particles thereon.

A method of fabricating an integrated circuit includes forming a first trench such that a portion of the first trench is defined by a portion of a first-type of interconnect and depositing a sacrificial spacer liner in the first trench to cover the portion of the first-type of interconnect element. The method further includes forming a dielectric cap on the sacrificial spacer liner and above the first-type of interconnect element, removing the dielectric cap to expose at least a portion of the first-type of interconnect element, and forming a second-type of interconnect element on the exposed first-type of interconnect element.

A method of processing a substrate may include preparing the substrate, polishing the substrate, and cleaning the substrate using a double nozzle, which is configured to provide a spray and a chemical solution onto the substrate. The spray may include a deionized water, and the chemical solution may be diluted with the deionized water. The chemical solution and the spray may be spaced apart from each other by a distance of 7 cm to 12 cm.

Semiconductor devices and methods of manufacture are described herein. The methods include forming a local organic interconnect (LOI) by forming a stack of conductive traces embedded in a passivation material, forming first and second local contacts over the passivation material, the second local contact being electrically coupled to the first local contact by a first conductive trace of the stack. The methods further include forming a backside redistribution layer (RDL) and a front side RDL on opposite sides of the LOI with TMVs electrically coupling the backside and front side RDLs to one another. First and second external contacts are formed over the backside RDL for mounting of semiconductor devices, the first and second external contacts being electrically connected to one another by the LOI. An interconnect structure is attached to the front side RDL for further routing. External connectors electrically coupled to the external contacts at the backside RDL.

The present disclosure relates to cleaning compositions that are used to clean semiconductor substrates. These cleaning compositions can remove the defects/contaminants arising from previous processing on the semiconductor substrates and thereby make the substrates appropriate for further processing. The cleaning compositions described herein primarily contain at least one pH adjusting agent and at least one biosurfactant.