The present invention relates to photosensitive compositions containing polynorbornene (PNB) polymers and certain additives that are useful for forming microelectronic and/or optoelectronic devices and assemblies thereof, and more specifically to compositions encompassing PNBs and certain multifunctional crosslinking agents, and two or more phenolic compounds which are resistant to thermo-oxidative chain degradation and exhibit improved mechanical properties.

The present invention relates to photosensitive compositions containing polynorbornene (PNB) polymers and certain additives that are useful for forming microelectronic and/or optoelectronic devices and assemblies thereof, and more specifically to compositions encompassing PNBs and certain multifunctional crosslinking agents, and two or more phenolic compounds which are resistant to thermo-oxidative chain degradation and exhibit improved mechanical properties.

A silicon-containing composition includes a polysiloxane compound and solvent. The polysiloxane compound includes a fluorine atom and a group including an ester bond. The polysiloxane compound preferably includes a first structural unit represented by formula (1), and a second structural unit represented by formula (2). X represents a monovalent organic group having 1 to 20 carbon atoms and comprising a fluorine atom; R.sup.1 represents a halogen atom, a hydroxy group, or a monovalent organic group having 1 to 20 carbon atoms; Y represents a monovalent organic group having 1 to 20 carbon atoms and comprising an ester bond; and R.sup.2 represents a halogen atom, a hydroxy group, or a monovalent organic group having 1 to 20 carbon atoms.

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A method for lithography patterning includes forming a first layer over a substrate, the first layer being radiation-sensitive, exposing the first layer to a radiation, mixing a first solution and a second solution, thereby forming a developer, and dispensing the developer to the exposed first layer to form a pattern over the substrate. The dispensing of the developer includes varying a concentration of a developing chemical in the developer in multiple stages, such that the concentration of the developing chemical in the developer increases from a first stage to a subsequent second stage, and increases from the second stage to a subsequent third stage real-time during the dispensing.

A method for lithography patterning includes forming a first layer over a substrate, the first layer being radiation-sensitive, exposing the first layer to a radiation, mixing a first solution and a second solution, thereby forming a developer, and dispensing the developer to the exposed first layer to form a pattern over the substrate. The dispensing of the developer includes varying a concentration of a developing chemical in the developer in multiple stages, such that the concentration of the developing chemical in the developer increases from a first stage to a subsequent second stage, and increases from the second stage to a subsequent third stage real-time during the dispensing.

A resist composition containing a base material component and a compound represented by General Formula (d0), in which in the formula, Rd.sup.0 represents a condensed cyclic group containing a condensed ring containing at least one aromatic rings, the condensed cyclic group having, as a substituent, an acid decomposable group which is decomposed under action of acid to form a polar group, Yd.sup.0 represents a divalent linking group or a single bond, M.sup.m+ represents an m-valent organic cation, and m represents an integer of 1 or more

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A photosensitive resin composition comprising (A) a silicone resin comprising recurring units having formula (a1) and recurring units having formula (b1), (B) a filler, and (C) a photoacid generator is coated onto a substrate to form a photosensitive resin coating which can be processed into a fine pattern in thick film form, has improved film properties like crack resistance, and is reliable as protective film. ##STR00001##

A manufacturing method for semiconductor device comprises the steps of: forming a ridge on the surface of an InP substrate; applying a photoresist to the surface of the InP substrate so as to cover the ridge; exposing through a mask an area of the photoresist covering part of an electrode contact layer at the top of the ridge, to form a resist pattern by development; applying a shrink material so as to cover resist pattern defects occurred when forming the resist pattern; forming a crosslinked portion in the defects to repair them by reacting the shrink material with an acid remaining at the exposed interface of the resist pattern; and removing by etching an electrode contact layer exposed from the resist pattern having the repaired defects after stripping away an unreacted shrink material, thereby to obtain a desired processed shape.

A manufacturing method for semiconductor device comprises the steps of: forming a ridge on the surface of an InP substrate; applying a photoresist to the surface of the InP substrate so as to cover the ridge; exposing through a mask an area of the photoresist covering part of an electrode contact layer at the top of the ridge, to form a resist pattern by development; applying a shrink material so as to cover resist pattern defects occurred when forming the resist pattern; forming a crosslinked portion in the defects to repair them by reacting the shrink material with an acid remaining at the exposed interface of the resist pattern; and removing by etching an electrode contact layer exposed from the resist pattern having the repaired defects after stripping away an unreacted shrink material, thereby to obtain a desired processed shape.

A method for processing a substrate is described. The method includes forming a metal containing resist layer onto a substrate, patterning the metal containing resist layer, and performing a post exposure bake on the metal containing resist layer. The post exposure bake on the metal containing resist layer is a field guided post exposure bake operation and includes the use of an electric field to guide the ions or charged species within the metal containing resist layer. The field guided post exposure bake operation may be paired with a post development field guided bake operation.