Abstract: A compound represented by Formula (1): wherein X is a group having a valency of r; each R1 is independently an organic group comprising an acid-labile group; m is an integer greater than or equal to 1; k is an integer from 1 to 5; and r is an integer from 2 to 10, wherein the compound is non-polymeric, and wherein Ar1, L1, L2, R2, and R3 are as defined herein.

Abstract: New photoresist and topcoat compositions are provided that are useful in a variety of applications. In one aspect, new photoresist compositions are provided that comprise: (a) a first matrix polymer; (b) one or more acid generators; and (c) one or more additive compounds of Formulae (I) and/or (II).

Abstract: A photoresist composition comprises a first polymer formed by free radical polymerization. The first polymer comprises polymerized units formed from a monomer that comprises an ethylenically unsaturated double bond and an acid-labile group; a photoacid generator; a quencher of formula (1): and a solvent.

Abstract: A photoactive compound of formula (1a) or (1b): wherein R1 is substituted or unsubstituted C1-30 alkyl, substituted or unsubstituted C3-30 cycloalkyl, substituted or unsubstituted C3-30 heterocycloalkyl, substituted or unsubstituted C6-30 aryl, or substituted or unsubstituted C3-30 heteroaryl comprising an aromatic ring heteroatom chosen from nitrogen, oxygen, or a combination thereof; R2 and R3 are as provided herein; R4 is substituted or unsubstituted C1-30 alkyl, substituted or unsubstituted C3-30 cycloalkyl, substituted or unsubstituted C3-30 heterocycloalkyl, substituted or unsubstituted C6-30 aryl, or substituted or unsubstituted C3-30 heteroaryl; and M+ is an organic cation.

Abstract: A photoresist composition, comprising: a first polymer comprising: a first repeating unit comprising a hydroxyaryl group; a second repeating unit comprising a first acid-labile group; and a third repeating unit comprising a first base-soluble group having a pKa of 12 or less, and not comprising a hydroxyaryl group; wherein the first, second, and third repeating units of the first polymer are different from each other, and the first polymer is free of lactone groups; a second polymer comprising: a first repeating unit comprising a second acid-labile group, a second repeating unit comprising a lactone group, and a third repeating unit comprising a second base-soluble group having a pKa of 12 or less; wherein the first, second, and third repeating units of the second polymer are structurally different from each other; and a solvent, wherein the first polymer and the second polymer are different from each other.

Abstract: Photoresist compositions comprise: an acid-sensitive polymer comprising a repeating unit comprising an ester acetal group, wherein the acid-sensitive polymer is free of tertiary alkyl ester groups and is substantially free of aromatic groups; a material comprising a base-labile group; a photoacid generator compound that is free of fluorine which generates an acid having a pKa of -2 or greater, and wherein the photoresist composition is free of photoacid generators that generate an acid having a pKa of less than -2; and a solvent.. The photoresist compositions and pattern formation methods using the photoresist compositions find particular use in the formation of fine lithographic patterns in the semiconductor manufacturing industry.

Abstract: A compound comprising an aromatic group or a heteroaromatic group, wherein the aromatic group or the heteroaromatic group comprises a first substituent group comprising an ethylenically unsaturated double bond, a second substituent group that is an iodine atom, and a third substituent group comprising an acid-labile group, wherein the first substituent group, the second substituent group, and the third substituent group are each bonded to a different carbon atom of the aromatic group or the heteroaromatic group.

Abstract: Disclosed herein is a photoresist composition, comprising a first polymer formed by free radical polymerization, the first polymer comprising polymerized units formed from a monomer comprising an ethylenically unsaturated double bond and an acid-labile group; a photoacid generator; a quencher of formula (1): wherein: R1 is independently a hydrogen atom, C1-C20 linear, C3-C20 branched, or C3-20 cyclic alkyl, the alkyl optionally comprising an —O— group other than at an alpha-position with respect to the amide C(O), or C6-C20 aryl; R2 is independently a hydrogen atom, C1-C20 linear, C3-C20 branched, or C3-C20 cyclic alkyl, or C6-C20 aryl; L is C1-C20 linear or C3-C20 branched alkylene comprising one or more heteroatom-containing groups independently selected from —O—, —S—, or —N(R3)—, wherein R3 is selected from a hydrogen atom or C1-C20 linear or C3-C20 branched or cyclic alkyl; each of R1, R2, and L may independently be substituted or unsubstituted; wherein the quencher is free of crosslinkable groups;

Abstract: A photoresist composition comprising: a first polymer comprising a first repeating unit comprising a hydroxy-aryl group and a second repeating unit comprising an acid-labile group; a second polymer comprising a first repeating unit comprising an acid-labile group, a second repeating unit comprising a lactone group, and a third repeating unit comprising a base-soluble group, wherein the base-soluble group has a pKa of less than or equal to 12, and wherein the base-soluble group does not comprise a hydroxy-substituted aryl group; a photoacid generator; and a solvent, wherein the first polymer and the second polymer are different from each other.

Abstract: New photoresist and topcoat compositions are provided that are useful in a variety of applications. In one aspect, new photoresist compositions are provided that comprise: (a) a first matrix polymer; (b) one or more acid generators; and (c) one or more additive compounds of Formulae (I) and/or (II).

Abstract: Methods of forming an electronic device, comprise: (a) providing a semiconductor substrate comprising one or more layers to be patterned; (b) forming a photoresist layer over the one or more layers to be patterned, wherein the photoresist layer is formed from a composition that comprises: a matrix polymer comprising a unit having an acid labile group; a photoacid generator; and an organic solvent; (c) coating a photoresist overcoat composition over the photoresist layer, wherein the overcoat composition comprises: a matrix polymer; an additive polymer; a basic quencher; and an organic solvent; wherein the additive polymer has a lower surface energy than a surface energy of the matrix polymer, and wherein the additive polymer is present in the overcoat composition in an amount of from 1 to 20 wt % based on total solids of the overcoat composition; (d) exposing the photoresist layer to activating radiation; (e) heating the substrate in a post-exposure bake process; and (f) developing the exposed film with an or

Abstract: Multiple-pattern forming methods are provided.

Abstract: Methods of forming an electronic device, comprising in sequence: (a) providing a semiconductor substrate comprising one or more layers to be patterned; (b) forming a photoresist layer over the one or more layers to be patterned, wherein the photoresist layer is formed from a composition that comprises: a matrix polymer comprising a unit having an acid labile group; a photoacid generator; and an organic solvent; (c) coating a photoresist overcoat composition over the photoresist layer, wherein the overcoat composition comprises a quenching polymer and an organic solvent, wherein the quenching polymer comprises a unit having a basic moiety effective to neutralize acid generated by the photoacid generator in a surface region of photoresist layer; (d) exposing the photoresist layer to activating radiation; (e) heating the substrate in a post-exposure bake process; and (f) developing the exposed film with an organic solvent developer.

Abstract: Photoresist overcoat compositions are provided. The compositions comprise: a matrix polymer, an additive polymer a basic quencher and an organic solvent. The additive polymer has a lower surface energy than a surface energy of the matrix polymer, and the additive polymer is present in the overcoat composition in an amount of from 1 to 20 wt % based on total solids of the overcoat composition. The compositions have particular applicability in the semiconductor manufacturing industry for use in negative tone development processes.

Abstract: Methods of forming an electronic device, comprise: (a) providing a semiconductor substrate comprising one or more layers to be patterned; (b) forming a photoresist layer over the one or more layers to be patterned, wherein the photoresist layer is formed from a composition that comprises: a matrix polymer comprising a unit having an acid labile group; a photoacid generator; and an organic solvent; (c) coating a photoresist overcoat composition over the photoresist layer, wherein the overcoat composition comprises: a matrix polymer; an additive polymer; a basic quencher; and an organic solvent; wherein the additive polymer has a lower surface energy than a surface energy of the matrix polymer, and wherein the additive polymer is present in the overcoat composition in an amount of from 1 to 20 wt % based on total solids of the overcoat composition; (d) exposing the photoresist layer to activating radiation; (e) heating the substrate in a post-exposure bake process; and (f) developing the exposed film with an or

Abstract: Photoresist overcoat compositions are provided. The compositions comprise: a matrix polymer, an additive polymer a basic quencher and an organic solvent. The additive polymer has a lower surface energy than a surface energy of the matrix polymer, and the additive polymer is present in the overcoat composition in an amount of from 1 to 20 wt % based on total solids of the overcoat composition. The compositions have particular applicability in the semiconductor manufacturing industry for use in negative tone development processes.

Abstract: Multiple-pattern forming methods are provided.

Abstract: Photoresist overcoat compositions comprise: a quenching polymer wherein the quenching polymer comprises: a first unit having a basic moiety; and a second unit formed from a monomer of the following general formula (I): wherein: R1 is chosen from hydrogen and substituted or unsubstituted C1 to C3 alkyl; R2 is chosen from substituted and unsubstituted C1 to C15 alkyl; X is oxygen, sulfur or is represented by the formula NR3, wherein R3 is chosen from hydrogen and substituted and unsubstituted C1 to C10 alkyl; and Z is a single bond or a spacer unit chosen from optionally substituted aliphatic and aromatic hydrocarbons, and combinations thereof, optionally with one or more linking moiety chosen from —O—, —S—, —COO— and —CONR4— wherein R4 is chosen from hydrogen and substituted and unsubstituted C1 to C10 alkyl; and an organic solvent; wherein the quenching polymer is present in the composition in an amount of from 80 to 100 wt % based on total solids of the overcoat composition The compositions have particul

Abstract: Methods of forming an electronic device, comprising in sequence: (a) providing a semiconductor substrate comprising one or more layers to be patterned; (b) forming a photoresist layer over the one or more layers to be patterned, wherein the photoresist layer is formed from a composition that comprises: a matrix polymer comprising a unit having an acid labile group; a photoacid generator; and an organic solvent; (c) coating a photoresist overcoat composition over the photoresist layer, wherein the overcoat composition comprises a quenching polymer and an organic solvent, wherein the quenching polymer comprises a unit having a basic moiety effective to neutralize acid generated by the photoacid generator in a surface region of photoresist layer; (d) exposing the photoresist layer to activating radiation; (e) heating the substrate in a post-exposure bake process; and (f) developing the exposed film with an organic solvent developer.