Disclosed are saturated cyclic monopolymers derived from hexyne, octyne, nonyne, pentadecyne and saturated cyclic copolymers derived from acetylene and a second alkyne monomer that is hexyne, octyne, nonyne, or pentadecyne.

Disclosed are saturated cyclic monopolymers derived from hexyne, octyne, nonyne, pentadecyne and saturated cyclic copolymers derived from acetylene and a second alkyne monomer that is hexyne, octyne, nonyne, or pentadecyne.

A polymer, an organic layer composition, and a method of forming patterns, the polymer including a structural unit represented by Chemical Formula 1 or Chemical Formula 2:

##STR00001##

A polymer, an organic layer composition, and a method of forming patterns, the polymer including a structural unit represented by Chemical Formula 1 or Chemical Formula 2:

##STR00001##

A material for forming an organic film, including: a compound for forming an organic film shown by the following general formula (1A); and an organic solvent, where W.sub.1 represents a tetravalent organic group, n1 an integer of 0 or 1, n2 an integer of 1 to 3, and R.sub.1 an alkynyl group having 2 to 10 carbon atoms. A compound for forming an organic film is cured not only under air, but also under film formation conditions of inert gas, and forms an organic film having not only excellent heat resistance and properties of filling and planarizing a pattern formed on a substrate, but also favorable adhesion to a substrate, and a material for forming an organic film containing the compound, and a substrate for manufacturing a semiconductor device using the material, a method for forming an organic film using the material, and a patterning process using the material. ##STR00001##

A material for forming an organic film, including: a compound for forming an organic film shown by the following general formula (1A); and an organic solvent, where W.sub.1 represents a tetravalent organic group, n1 an integer of 0 or 1, n2 an integer of 1 to 3, and R.sub.1 an alkynyl group having 2 to 10 carbon atoms. A compound for forming an organic film is cured not only under air, but also under film formation conditions of inert gas, and forms an organic film having not only excellent heat resistance and properties of filling and planarizing a pattern formed on a substrate, but also favorable adhesion to a substrate, and a material for forming an organic film containing the compound, and a substrate for manufacturing a semiconductor device using the material, a method for forming an organic film using the material, and a patterning process using the material. ##STR00001##

The present invention relates to a hydrochromic polydiacetylene composite composition, a hydrochromic thin film using same, and a use thereof, and more specifically, to a hydrochromic polydiacetylene composite composition reacting sensitively to moisture, providing the hydrochromic thin film using same, and to applying same to biorecognition or fingerprint recognition. According to the present invention, moisture secreted from a fingerprint or pores on the skin can be detected with high sensitivity. Thus, the position of pores unique to a fingerprint of an organism can be amplified and displayed through selective color change and fluorescent change patterns exhibited when moisture is absorbed.

The present invention relates to a hydrochromic polydiacetylene composite composition, a hydrochromic thin film using same, and a use thereof, and more specifically, to a hydrochromic polydiacetylene composite composition reacting sensitively to moisture, providing the hydrochromic thin film using same, and to applying same to biorecognition or fingerprint recognition. According to the present invention, moisture secreted from a fingerprint or pores on the skin can be detected with high sensitivity. Thus, the position of pores unique to a fingerprint of an organism can be amplified and displayed through selective color change and fluorescent change patterns exhibited when moisture is absorbed.

This disclosure concerns a method of making a ligand for Quantum Dot functionalization, a method of making a functionalized Quantum Dot (QD) with a ligand, and a method of making a transparent luminescent quantum dot thiol-yne nanocomposite with tailorable optical, thermal, and mechanical properties. The prepolymer solution and functionalized Quantum Dot can be used in additive manufacturing.

Disclosed are saturated cyclic monopolymers derived from hexyne, octyne, nonyne, pentadecyne and saturated cyclic copolymers derived from acetylene and a second alkyne monomer that is hexyne, octyne, nonyne, or pentadecyne.