A chemically-amplified negative resist composition includes: (A) a quencher containing an onium salt shown by the following formula (A-1); (B) a base polymer containing repeating units shown by the following formulae (B1) and (B2); and (C) a photo-acid generator which generates an acid. Thus, the present invention provides: a negative resist composition which can form a favorable profile with high sensitivity and low LWR and CDU in a pattern; and a resist patterning process using the composition. ##STR00001##

A positive resist composition is provided comprising two onium salts, a base polymer comprising acid labile group-containing recurring units, and an organic solvent. The positive resist composition forms a pattern having PED stability and improved properties including DOF, LWR, and controlled footing profile.

A new photosensitive resin composition based on a polysiloxane, that is, a negative photosensitive resin composition is provided. A negative photosensitive resin composition includes (A) a polysiloxane compound containing a first structural unit represented by the following general formula (1), (B) a photoinduced curing accelerator, and (C) a solvent.

[(R.sup.x).sub.bR.sup.1.sub.mSiO.sub.n/2]  (1)

A photosensitive material includes: a compound A having a carboxy group, in which the compound A includes a polymer including a repeating unit derived from (meth)acrylic acid, and a content of the carboxy group in a photosensitive layer which is formed from the photosensitive material is reduced by irradiation with an actinic ray or a radiation.

A positive-type photosensitive resin composition comprises a (a) polybenzoxazole precursor, a (b) crosslinking agent, a (c) photosensitive agent, and a (d) solvent, wherein the (a) polybenzoxazole precursor comprises a structure represented by Formula (1) below, and the (c) photosensitive agent is a compound comprising a structure represented by Formula (2) below. In Formula (1), U is a bivalent organic group, a single bond, —O—, or —SO.sub.2—, V is a group comprising an aliphatic structure, and the carbon number in the aliphatic structure is 1 to 30. ##STR00001##

A method for measuring a distance of diffusion of a curing catalyst for a thermosetting silicon-containing material includes the steps of: forming a silicon-containing film from a composition containing a thermosetting silicon-containing material, a curing catalyst and a solvent; coating the silicon-containing film with a photosensitive resin composition containing a resin whose solubility in alkaline developer is increased by the action of an acid, an acid generator and a solvent, and subsequently heating to prepare a substrate on which the silicon-containing film and a resin film are formed; irradiating the substrate with a high energy beam or an electron beam to generate an acid and heat-treating the substrate to increase the solubility of the resin in an alkaline developer by the action of the acid in the resin film; dissolving the resin film in an alkaline developer; and measuring a film thickness of the remaining resin.

A resin having a small linear thermal expansion coefficient and a low absorbance is provided. The resin is characterized by including at least one structure selected from structures represented by the following general formulae (1) and (2):

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Organometallic solutions have been found to provide high resolution radiation based patterning using thin coatings. The patterning can involve irradiation of the coated surface with a selected pattern and developing the pattern with a developing agent to form the developed image. The patternable coatings may be susceptible to positive-tone patterning or negative-tone patterning based on the use of an organic developing agent or an aqueous acid or base developing agent. The radiation sensitive coatings can comprise a metal oxo/hydroxo network with organic ligands. A precursor solution can comprise an organic liquid and metal polynuclear oxo-hydroxo cations with organic ligands having metal carbon bonds and/or metal carboxylate bonds.

The present application relates to a compound of Chemical Formula 1, a binder resin, a negative-type photosensitive resin composition, and a display apparatus including a black bank formed using the same.

A method of manufacturing a semiconductor structure includes the following operations. A photoresist layer is formed on a metal layer, in which the photoresist layer includes an additive selected from the group consisting of a first heterocyclic compound containing a triazole ring, a second heterocyclic compound containing an imidazole ring, biphenyl thiol, biphenyl dithiol, benzenethiol, and benzenedithiol. The photoresist layer is exposed to an actinic radiation. The photoresist layer is developed by a developer to form holes in the photoresist layer. Redistribution lines are formed in the holes by an electroplating process.