Abstract: An aqueous etching composition comprising: (a) functionalized urea, biuret and guanidine derivatives and/or salts thereof selected from compounds having formulae I or II: wherein X and Y are independently selected from oxygen, NRR? and NR5, R, R? and R5 are independently selected from R1, hydrogen, polyethylene glycols, aromatic compounds, and C1-C4 alkyl, wherein the aromatic compounds and C1-C4 alkyl optionally comprise at least one substituent selected as OR6, R6 is selected from hydrogen and C1-C4alkyl, X and Y can be identical or different; R1 and R2 are independently selected from hydrogen, alkyl compounds, amines, and nitrogen-comprising heteroaromatic compounds, R1 and R2 can be identical or different, with the proviso that R1 cannot be hydrogen, and with the proviso that in compounds having formula I R1 cannot be hydrogen or alkyl compound if X is oxygen; m is an integer from 1 to 4, and n is an integer from 0 to 8; wherein m and n can be identical or different; (b) an oxidizing agent; and

Abstract: The present invention relates to imidazoyl urea polymers and their use in aqueous acidic plating baths for metal or metal alloy deposition such as electrolytic deposition of copper or alloys thereof in the manufacture of printed circuit boards, IC substrates, semiconducting and glass devices for electronic applications. The plating bath according to the present invention comprises at least one source of metal ions and an imidazoyl urea polymer. The plating bath is particularly useful for filling recessed structures and build-up of pillar bump structures.

Abstract: The present invention concerns pyridinium compounds, a synthesis method for their preparation, metal or metal alloy plating baths containing said pyridinium compounds and a method for use of said metal or metal alloy plating baths. The plating baths are particularly suitable for use in filling of recessed structures in the electronics and semiconductor industry including dual damascene applications.

Abstract: The present invention relates to bisurea derivatives and their use in aqueous plating baths for copper and copper alloy deposition in the manufacture of printed circuit boards, IC substrates, semiconducting and glass devices for electronic applications. The plating bath according to the present invention comprises at least one source of copper ions and a bisurea derivative. The plating bath is particularly useful for filling recessed structures with copper and build-up of pillar bump structures.

Abstract: The present invention concerns pyridinium compounds, a synthesis method for their preparation, metal or metal alloy plating baths containing said pyridinium compounds and a method for use of said metal or metal alloy plating baths. The plating baths are particularly suitable for use in filling of recessed structures in the electronics and semiconductor industry including dual damascene applications.

Abstract: The present invention relates to imidazoyl urea polymers and their use in aqueous acidic plating baths for metal or metal alloy deposition such as electrolytic deposition of copper or alloys thereof in the manufacture of printed circuit boards, IC substrates, semiconducting and glass devices for electronic applications. The plating bath according to the present invention comprises at least one source of metal ions and an imidazoyl urea polymer. The plating bath is particularly useful for filling recessed structures and build-up of pillar bump structures.

Abstract: The present invention relates to bisurea derivatives and their use in aqueous plating baths for copper and copper alloy deposition in the manufacture of printed circuit boards, IC substrates, semiconducting and glass devices for electronic applications. The plating bath according to the present invention comprises at least one source of copper ions and a bisurea derivative. The plating bath is particularly useful for filling recessed structures with copper and build-up of pillar bump structures.

Abstract: The present invention relates to additives which may be employed in electroless metal and metal alloy plating baths and a process for use of said plating baths. Such additives reduce the plating rate and increase the stability of electroless plating baths and therefore, such electroless plating baths are particularly suitable for the deposition of said metal or metal alloys into recessed structures such as trenches and vias in printed circuit boards, IC substrates and semiconductor substrates. The electroless plating baths are further useful for metallization of display applications.

Abstract: The present invention relates to additives which may be employed in electroless metal and metal alloy plating baths and a process for use of said plating baths. Such additives reduce the plating rate and increase the stability of electroless plating baths and therefore, such electroless plating baths are particularly suitable for the deposition of said metal or metal alloys into recessed structures such as trenches and vias in printed circuit boards, IC substrates and semiconductor substrates. The electroless plating baths are further useful for metallisation of display applications.

Abstract: Disclosed is a chemical compound useful in a galvanic nickel or nickel alloy electroplating bath for depositing a semi-bright nickel or bright nickel alloy coating characterized in that the chemical compound has general formula IA: in which in general formula IA, R3 and R4?-CH2CH3 or R3 and R4 taken together with the N atom form a pyrrolidine ring or a morpholine ring.

Abstract: The present invention is related to a galvanic nickel or nickel alloy electroplating bath for depositing a semi-bright nickel or nickel alloy coating characterized in that the electroplating bath comprises at least one compound having the general formula (I) wherein R1=C1-C18 hydrocarbon moiety substituted with a SO3? group, C1-C18 hydrocarbon moiety substituted with a carboxylic group or C1-C18 hydrocarbon moiety substituted with at least an aromatic and/or a heteroaromatic group; R2=NR3R4 moiety, OR5 moiety, or cyclic NR6 moiety, wherein R3, R4, R5=hydrogen or C1-C18 hydrocarbon moiety or C1-C18 hydrocarbon moiety substituted with at least an aromatic and/or a heteroaromatic group, wherein R3, R4 and R5 are identical or different; R6=C3-C8 hydrocarbon moiety or C3-C8 hydrocarbon moiety, wherein at least one carbon atom is substituted by a heteroatom; and n=1-3.

Abstract: The present invention relates to aqueous acidic plating baths for copper and copper alloy deposition in the manufacture of printed circuit boards, IC substrates, semiconducting and glass devices for electronic applications. The plating bath according to the present invention comprises copper ions, at least one acid and an ureylene polymer comprising amino residues on both termini and which is free of organically bound halogen. The plating bath is particularly useful for filling recessed structures with copper and build-up of pillar bump structures.

Abstract: A pyrophosphate-containing bath for the cyanide-free deposition of copper alloys on substrate surfaces, comprising a reaction product of a secondary monoamine with a diglycidyl ether, is described. The electrolyte bath is suitable for the galvanic deposition of glossy white, even and uniform copper-tin alloy coatings.

Abstract: Additives for electrolyte baths for the electrodeposition of zinc or zinc alloy layer are described. The additives are polymers with terminal amino groups. These polymers are obtainable by reaction of at least one diamino compound (having two tertiary amino groups) with at least one di(pseudo)halogen compound, wherein the diamino compound is used in stoichiometric excess. The additives effect, in particular, a very little formation of bubbles and only few burnings as well as a uniform distribution of layer thickness in the electrodeposition of zinc or zinc alloy layers.

Abstract: The present invention is related to a galvanic nickel or nickel alloy electroplating bath for depositing a semi-bright nickel or nickel alloy coating characterized in that the electroplating bath comprises at least one compound having the general formula (I) wherein R1=C1-C18 hydrocarbon moiety substituted with a SO3? group, C1-C18 hydrocarbon moiety substituted with a carboxylic group or C1-C18 hydrocarbon moiety substituted with at least an aromatic and/or a heteroaromatic group; R2=NR3R4 moiety, OR5 moiety, or cyclic NR6 moiety, wherein R3, R4, R5=hydrogen or C1-C18 hydrocarbon moiety or C1-C18 hydrocarbon moiety substituted with at least an aromatic and/or a heteroaromatic group, wherein R3, R4 and R5 are identical or different; R6=C3-C8 hydrocarbon moiety or C3-C8 hydrocarbon moiety, wherein at least one carbon atom is substituted by a heteroatom; and n=1-3.

Abstract: The present invention relates to aqueous acidic plating baths for copper and copper alloy deposition in the manufacture of printed circuit boards, IC substrates, semiconducting and glass devices for electronic applications. The plating bath according to the present invention comprises copper ions, at least one acid and an ureylene polymer comprising amino residues on both termini and which is free of organically bound halogen. The plating bath is particularly useful for filling recessed structures with copper and build-up of pillar bump structures.

Abstract: A pyrophosphate-containing bath for the cyanide-free deposition of copper alloys on substrate surfaces, comprising a reaction product of a secondary monoamine with a diglycidyl ether, is described. The electrolyte bath is suitable for the galvanic deposition of glossy white, even and uniform copper-tin alloy coatings.

Abstract: An aqueous cyanide-free electrolyte bath for plating of tin alloy layers on substrate surfaces comprising (i) a tin ion source and a source for another alloy element, characterized in that it further contains (ii) N-methyl pyrrolidone is described.

Abstract: Additives for electrolyte baths for the electrodeposition of zinc or zinc alloy layer are described. The additives are polymers with terminal amino groups. These polymers are obtainable by reaction of at least one diamino compound (having two tertiary amino groups) with at least one di(pseudo)halogen compound, wherein the diamino compound is used in stoichiometric excess. The additives effect, in particular, a very little formation of bubbles and only few burnings as well as a uniform distribution of layer thickness in the electrodeposition of zinc or zinc alloy layers.

Abstract: A pyrophosphate-containing bath for the cyanide-free deposition of copper alloys on substrate surfaces, comprising a reaction product of a secondary monoamine with a diglycidyl ether, is described. The electrolyte bath is suitable for the galvanic deposition of glossy white, even and uniform copper-tin alloy coatings.