The present invention relates to a polymer which is excellent in terms of liquid crystal alignment property, durability, and electrical characteristics, and thus is suitable for use in a liquid crystal aligning agent, a liquid crystal aligning agent composition including the same, a liquid crystal alignment film formed from the liquid crystal aligning agent composition, and a liquid crystal display device including the liquid crystal alignment film.

The present disclosure relates to a poly(amide-imide) copolymer in which at least one of an imide repeating unit and an amide repeating unit is substituted with a specific functional group, and a composition and a polymer film comprising the same.

This disclosure describes a process of generating a planarizing polyimide based dielectric film on a substrate with conducting metal pattern, wherein the process comprised steps of: (a) providing a dielectric film forming composition comprising at least one fully imidized polyimide polymer and at least one solvent; and (b) depositing the dielectric film forming composition onto a substrate with conducting metal pattern to form a dielectric film, wherein the difference in the highest and lowest points on a top surface of the dielectric film is less than about 2 microns.

The invention relates to bis(aniline) compounds containing multiple arylethynyl, alkylethynyl, ethynyl groups or their combinations, processes of making such compounds and materials comprising such compounds. Such, bis(aniline) compounds preferably comprise multiple phenylethynyl (PE) groups, i.e. 2-4 PE moieties. Such compounds are useful monomers for the preparation of polyimides, polyamides and poly(amide-imides) whose post-fabrication crosslinking chemistry (i.e. reaction temperature) can be controlled by the number of PE per repeat unit as well as finding utility in thermosetting matrix resins, 3D printable resins, and as high-carbon-content precursors to carbon-carbon composites.

A photosensitive polyimide resin composition containing: a ring-closed polyimide resin (A) having a structure represented by Formula (1); and a polyfunctional radically polymerizable compound (B) having radically polymerizable functional groups and oxyalkylene groups, wherein a number of the radically polymerizable functional groups in the polyfunctional radically polymerizable compound (B) is 3 or greater and 100 or less, and wherein a total number of moles of the oxyalkylene groups added in the polyfunctional radically polymerizable compound (B) is 5 or greater and 100 or less.

A method for producing a polyimide precursor having a structural unit represented by the following formula (1), comprising the following steps (i) and (ii), wherein at least one of the steps of (i) and (ii) is carried out in a solvent comprising a compound having an ether bond and an amide bond: (i) a step of reacting carboxylic anhydride with a diamine compound to obtain a polyimide precursor having a structural unit represented by the following formula (2); and (ii) a step of reacting the polyimide precursor having a structural unit represented by the formula (2) with a compound represented by the following formula (8), and reacting the reactant with a compound represented by the following formula (9) to obtain a polyimide precursor having a structural unit represented by the following formula (1):

##STR00001## wherein in the formula (1), at least one of R.sub.1 and R.sub.2 is a group represented by the formula (3):

##STR00002##

Embodiments in accordance with the present invention encompass polyamic acid or polyimide polymers containing a reactive maleimide end group as well as photosensitive compositions made therefrom which are useful for forming films that can be patterned to create structures for microelectronic devices, microelectronic packaging, microelectromechanical systems, optoelectronic devices and displays. In some embodiments the compositions of this invention are shown to feature excellent hitherto unachievable mechanical properties. The negative images formed therefrom exhibit improved thermo-mechanical properties, among other property enhancements.

Embodiments in accordance with the present invention encompass photosensitive compositions containing a variety of soluble polyimide polymers and various additives including photoacid generator, photo radical generator and one or more photo crosslinking agents which are useful for forming films that can be patterned to create structures for microelectronic devices, microelectronic packaging, microelectromechanical systems, optoelectronic devices and displays. In some embodiments the compositions of this invention are shown to feature excellent hitherto unachievable mechanical properties. The negative images formed therefrom can be readily cured at lower temperatures than the conventional polyimides and exhibit improved thermo-mechanical properties, among other property enhancements.

Embodiments in accordance with the present invention encompass polyamic acid or polyimide polymers containing a reactive unsaturated cyclic anhydride end group as well as photosensitive compositions made therefrom which are useful for forming films that can be patterned to create structures for microelectronic devices, microelectronic packaging, microelectromechanical systems, optoelectronic devices and displays. In some embodiments the compositions of this invention are shown to feature excellent hitherto unachievable mechanical properties. The negative images formed therefrom exhibit improved thermo-mechanical properties, among other property enhancements.

A method of manufacturing a semiconductor device includes placing a polymer raw material mixture over a substrate. The polymer raw material may include a polymer precursor, a photosensitizer, and an additive. The polymer raw material mixture is exposed to radiation to form a dielectric layer and cured at a temperature of between about 150 C. and about 230 C.