Abstract: A lithography method is provided in accordance with some embodiments. The lithography method includes forming a patterned photoresist on a material layer, applying a first bonding material to a side surface of the patterned photoresist, performing a treatment on the first bonding material to bond the first bonding material to the side surface of the patterned photoresist, wherein the treatment creates a bonding site on the first bonding material configured to bond to a second bonding material, applying the second bonding material to a side surface of the first bonding material, and patterning the material layer by selectively processing a portion of the material layer exposed by the patterned photoresist, the first bonding material, and the second bonding material.

Abstract: Provided is a material composition and method that includes forming a patterned resist layer on a substrate, where the patterned resist layer has a first line width roughness. In various embodiments, the patterned resist layer is coated with a treatment material, where a first portion of the treatment material bonds to surfaces of the patterned resist layer. In some embodiments, a second portion of the treatment material (e.g., not bonded to surfaces of the patterned resist layer) is removed, thereby providing a treated patterned resist layer, where the treated patterned resist layer has a second line width roughness less than the first line width roughness.

Abstract: Provided is a material composition and method that includes forming a patterned resist layer on a substrate. The patterned resist layer has a first pattern width, and the patterned resist layer has a first pattern profile having a first proportion of active sites. In some examples, the patterned resist layer is coated with a treatment material. In some embodiments, the treatment material bonds to surfaces of the patterned resist layer to provide a treated patterned resist layer having a second pattern profile with a second proportion of active sites greater than the first proportion of active sites. By way of example, and as part of the coating the patterned resist layer with the treatment material, a first pattern shrinkage process may be performed, where the treated patterned resist layer has a second pattern width less than a first pattern width.

Abstract: A material layer is formed over a substrate. A negative tone photoresist layer is formed over the material layer. An exposure process is performed to the negative tone photoresist layer. A post-exposure bake (PEB) process is performed to the negative tone photoresist layer. After the exposure process and the PEB process, the negative tone photoresist layer is treated with a solvent. The solvent contains a chemical having a greater dipole moment than n-butyl acetate (n-BA).

Abstract: A method includes forming a first layer over a substrate; forming a patterned photoresist layer over the first layer; applying a solution over the patterned photoresist layer to form a conformal layer over the pattern photoresist layer, wherein the conformal layer further includes a first portion over a top surface of the patterned photoresist layer and second portion extending along sidewalls of the patterned photoresist layer; selectively removing the first portion of the conformal layer formed over the top surface of the patterned photoresist layer; andselectively removing the patterned photoresist layer thereby leaving the second portion of the conformal layer.

Abstract: A lithography method is provided in accordance with some embodiments. The lithography method includes forming a patterned photoresist on a material layer, applying a first bonding material to a side surface of the patterned photoresist, performing a treatment on the first bonding material to bond the first bonding material to the side surface of the patterned photoresist, wherein the treatment creates a bonding site on the first bonding material configured to bond to a second bonding material, applying the second bonding material to a side surface of the first bonding material, and patterning the material layer by selectively processing a portion of the material layer exposed by the patterned photoresist, the first bonding material, and the second bonding material.

Abstract: A material layer is formed over a substrate. A negative tone photoresist layer is formed over the material layer. An exposure process is performed to the negative tone photoresist layer. A post-exposure bake (PEB) process is performed to the negative tone photoresist layer. After the exposure process and the PEB process, the negative tone photoresist layer is treated with a solvent. The solvent contains a chemical having a greater dipole moment than n-butyl acetate (n-BA).