Abstract: In general, the invention provides high pH cleaning compositions for dielectric surfaces such as PETEOS, SiO2, 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.

Abstract: The invention provides compositions useful in the etching of polysilicon in the presence of silicon oxide and silicon nitride. The compositions comprise choline hydroxide, an oxidizing agent such as periodic acid, and optionally a surfactant, and are useful in the etching of polysilicon in general, and in particular in both the operation of polysilicon trim as well as polysilicon exhume. The utilization of an added oxidizing agent was found to reduce selectivity of silicon etching based on the silicon crystal orientation, which was found to reduce roughness and the presence of residual silicon residues, such as silicon (111) residues after the etching step.

Abstract: A cleaning composition is disclosed for cleaning residue and/or contaminants from microelectronic devices having same thereon. The composition comprises at least one complexing agent, at least one cleaning additive, at least one pH adjusting agent, water, and at least one oxylamine compound. Advantageously, the compositions show effective cleaning of cobalt-containing substrates and improved cobalt compatibility.

Abstract: The present disclosure relates to removal compositions for at least partially removing post-chemical mechanical polishing (post-CMP) residues from the surface of a microelectronic device. The removal compositions comprise an aqueous base composition and various molybdenum etching inhibitors that reduce the amount of molybdenum removed from the surface of the microelectronic device compared to the aqueous base composition.

Abstract: The invention provides compositions useful in post-CMP cleaning operations where ceria is present. In one aspect, the invention provides a composition comprising a reducing agent; a chelating agent; an amino(C6-C12 alkyl)alcohol; and water; wherein the composition has a pH of less than about 8. The compositions of the invention were found to show improved ceria removal on, for example, poly silicon (poly Si) substrates. Also provided is a method for cleaning a microelectronic device substrate using such compositions and a kit comprising, in one or more containers, selected components of the compositions.

Abstract: The invention provides a composition and method for improving the selectivity of nitride etching versus oxide etching and can be used with conventional phosphoric acid wet etch compositions. The invention describes additives that serve to inhibit silicon, oxides, and related compounds regrowth (i.e., redeposition) on the silicon oxide surface. In certain embodiments, the invention provides certain amino-substituted aryl compounds which are bound to a tri-alkoxy silane.

Abstract: The invention provides compositions useful in post-CMP cleaning operations, particularly those substrates which contain exposed copper surfaces. The compositions of the invention provide excellent cleaning of such substrates while showing fewer defects from silica and organic materials present at the surface of the substrate. Also provided is a method for cleaning a microelectronic device substrate using such compositions and a kit comprising, in two or more containers, the components of the compositions.

Abstract: Provided are compositions and methods useful in the post-CMP cleaning of microelectronic devices, in particular, devices which contain one or more surfaces comprising hydrophobic carbon or SiC. In general, the compositions comprise a chelating agent; a water-miscible solvent; a reducing agent; and a pH adjustor, wherein the composition has a pH of about 2 to about 13.

Abstract: An etchant composition and method for etching molybdenum from a microelectronic device at an etch rate are described. A microelectronic device is contacted with an etchant composition for a time sufficient to at least partially remove the molybdenum. The etchant composition comprises at least one oxidizing agent, at least one oxidizing agent stabilizer, and at least one base and has a pH of from 7.5 to 13. The etchant composition selectively removes molybdenum at an etch rate of 5-200 ?/min.

Abstract: Provided are wet etching compositions and methods for etching a surface of a microelectronic device that contains silicon nitride (SiN), silicon oxide, and polysilicon which in one embodiment is in contact with a surface comprising a compound which is electrochemically more noble than silicon, and optionally other materials which may include a conductive material, a semiconducting material, or an insulating material useful in a microelectronic device, or a processing material that is useful in preparing a microelectronic device.

Abstract: Described are methods for removing abrasive particles from a polymeric surface, such as from a polymeric surface of a cleaning brush used in a post chemical-mechanical processing cleaning step, as well as related cleaning solutions.

Abstract: An etchant composition and method for etching molybdenum from a microelectronic device at an etch rate are described. A microelectronic device is contacted with an etchant composition for a time sufficient to at least partially remove the molybdenum. The etchant composition comprises at least one oxidizing agent, at least one oxidizing agent stabilizer, and at least one base and has a pH of from 7.5 to 13. The etchant composition selectively removes molybdenum at an etch rate of 5-200 ?/min.

Abstract: Compositions useful for the selective removal of silicon nitride materials relative to polysilicon, silicon oxide materials and/or silicide materials from a microelectronic device having same thereon are provided. The compositions of the invention are particularly useful in the etching of 3D NAND structures.

Abstract: Provided are compositions useful for the cleaning of microelectronic device structures. The residues may include post-CMP, post-etch, post-ash residues, pad and brush debris, metal and metal oxide particles and precipitated metal organic complexes such as copper-benzotriazole complexes. Advantageously, the compositions as described herein show improved aluminum, cobalt, and copper compatibility.

Abstract: Described are methods for removing abrasive particles from a polymeric surface, such as from a polymeric surface of a cleaning brush used in a post chemical-mechanical processing cleaning step, as well as related cleaning solutions.

Abstract: The invention provides a composition and method for improving the selectivity of nitride etching versus oxide etching and can be used with conventional phosphoric acid wet etch compositions. The invention describes additives that serve to inhibit silicon, oxides, and related compounds regrowth (i.e., redeposition) on the silicon oxide surface. In certain embodiments, the invention provides certain amino-substituted aryl compounds which are bound to a tri-alkoxy silane.

Abstract: Compositions useful for the selective removal of silicon nitride materials relative to polysilicon, silicon oxide materials and/or silicide materials from a microelectronic device having same thereon are provided. The compositions of the invention are particularly useful in the etching of 3D NAND structures.

Abstract: The invention provides a composition and method for improving the selectivity of nitride etching versus oxide etching and can be used with conventional phosphoric acid wet etch compositions. The invention describes additives that serve to inhibit silicon, oxides, and related compounds regrowth (i.e., redeposition) on the silicon oxide surface. In certain embodiments, the invention provides certain amino-substituted aryl compounds which are bound to a tri-alkoxy silane.

Abstract: In general, the invention provides high pH cleaning compositions for dielectric surfaces such as PETEOS, SiO2, 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.

Abstract: 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.