The present disclosure relates to a polyamideimide film-forming composition, a method of preparing the same, and a use thereof. The polyamideimide film-forming composition according to one embodiment prevents deterioration of colorless and transparent optical properties and has excellent mechanical properties, and thus may be effectively used for a polyamideimide film or a display device including the polyamideimide film.

The present disclosure relates to a polyamideimide film-forming composition, a method of preparing the same, and a use thereof. The polyamideimide film-forming composition according to one embodiment prevents deterioration of colorless and transparent optical properties and has excellent mechanical properties, and thus may be effectively used for a polyamideimide film or a display device including the polyamideimide film.

Methods for preparing mixed polyamides, polyimides and polyamideimides under hydrothermal polymerization conditions are provided. The methods are based on suitable mixtures of poly carboxylic acids, poly carboxylic dianhydrides or poly carboxylic acid chloride anhydrides and polyamines and provide routes to low cost structural polymers useful in, for example, infrastructure applications.

The embodiments provide a polyamide-based film, which comprises a polyamide-based polymer and has an RSR.sub.A value of 3.4 m/N to 5.0 m/N as represented by the following Equation 1 based on the thickness of the film of 50 μm, and which is excellent in loop stiffness, static flexural characteristics, and folding characteristics while securing mechanical and optical properties at least a certain level, a process for preparing the same, and a cover window and a display device comprising the same. <Equation 1> RSR.sub.A=(RSR.sub.MD+RSR.sub.TD)/2 In Equation 1, RSR.sub.MD is the loop stiffness value measured with the MD direction of the film as the longitudinal direction at room temperature, and RSR.sub.TD is the loop stiffness value measured with the TD direction of the film as the longitudinal direction at room temperature.

The embodiments provide a polyamide-based film, which comprises a polyamide-based polymer and has an RSR.sub.A value of 3.4 m/N to 5.0 m/N as represented by the following Equation 1 based on the thickness of the film of 50 μm, and which is excellent in loop stiffness, static flexural characteristics, and folding characteristics while securing mechanical and optical properties at least a certain level, a process for preparing the same, and a cover window and a display device comprising the same. <Equation 1> RSR.sub.A=(RSR.sub.MD+RSR.sub.TD)/2 In Equation 1, RSR.sub.MD is the loop stiffness value measured with the MD direction of the film as the longitudinal direction at room temperature, and RSR.sub.TD is the loop stiffness value measured with the TD direction of the film as the longitudinal direction at room temperature.

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.

The present invention relates to a method for the synthesis of a two-dimensional or quasi-two-dimensional polymer comprising a surfactant, the two-dimensional or quasi-two-dimensional polymer film and the use for the production of membranes, electronic devices or catalysts.

The present invention relates to a method for the synthesis of a two-dimensional or quasi-two-dimensional polymer comprising a surfactant, the two-dimensional or quasi-two-dimensional polymer film and the use for the production of membranes, electronic devices or catalysts.

The present invention relates to a diamine, and a polymer and film produced using the same. Specifically, the diamine may be significantly effectively used as a monomer for producing a polyimide-based film that is colorless and transparent and has improved mechanical strength.

The present invention relates to a diamine, and a polymer and film produced using the same. Specifically, the diamine may be significantly effectively used as a monomer for producing a polyimide-based film that is colorless and transparent and has improved mechanical strength.