JP2004250700A5 - - Google Patents

Description

The present invention provides a bio-liquid crystal polymer comprising a biological compound having an aromatic ring in the main chain or a derivative thereof, exhibiting liquid crystal properties under predetermined conditions, and having biocompatibility, in order to achieve the above object. provide.

It is preferable that the biological compound having an aromatic ring in the main chain or its derivative has solubility under predetermined conditions.

In order to achieve the above object, the present invention provides a biological polymer having two or more reactive functional groups and having an aromatic ring in a polymerizable main chain or a homopolymer or a homopolymer composed of at least one derivative thereof. The present invention provides a bio liquid crystal polymer characterized by comprising a copolymer comprising:

In order to achieve the above object, the present invention provides a polymerizable aromatic ring, alicyclic ring, double bond, or triple bond having two or more reactive functional groups in the main chain. A bio-liquid crystal polymer characterized by being constituted by a homopolymer comprising a biologically-derived compound or a derivative thereof.

It is preferable that the homopolymer is composed of a biological compound having an aromatic ring in one main chain selected from chlorogenic acids.

The copolymer is preferably composed of a biological compound having an aromatic ring in two main chains selected from chlorogenic acids.

The copolymer is preferably composed of 4-hydroxycinnamic acid and a biological compound having an aromatic ring in one main chain selected from chlorogenic acids except 4-hydroxycinnamic acid.

In order to achieve the above object, the present invention provides a polymerizable aromatic ring, alicyclic ring, double bond, or triple bond having two or more reactive functional groups in the main chain. Provided is a bio liquid crystal polymer characterized by being constituted by a copolymer comprising a biologically derived compound or a derivative thereof.

In order to achieve the above object, the present invention provides 4-hydroxycinnamic acid and at least one of a polymerizable aromatic ring, alicyclic ring, double bond and triple bond having two or more reactive functional groups. The present invention provides a bio liquid crystal polymer characterized by being constituted by a copolymer comprising a biologically-derived compound having a main structural chain in its main chain or at least one of its derivatives.

In order to achieve the above object, the present invention provides 4-hydroxycinnamic acid and amino acids, sugars, terpenes, flavonoids, steroids having two or more reactive functional groups and having a polymerizable and rigid structural site. The present invention provides a bio liquid crystal polymer comprising a copolymer comprising at least one biologically-derived compound having an aromatic ring in a main chain selected from the group consisting of:

In order to achieve the above-mentioned object, the present invention provides a biologically-derived compound having two or more reactive functional groups and having an aromatic ring in a polymerizable main chain, or a homopolymer comprising one kind of a derivative thereof or the main chain. Provided is a bio liquid crystal polymer, which is constituted by a copolymer composed of two or more kinds of biologically-derived compounds having an aromatic ring and is formed in a fibrous form.

Claims (21)

A bio liquid crystal polymer comprising a biological compound having an aromatic ring in the main chain or a derivative thereof, showing liquid crystal properties under predetermined conditions, and having biocompatibility. 2. The bio-liquid crystal polymer according to claim 1, wherein the biologically-derived compound having an aromatic ring in the main chain or its derivative has solubility under predetermined conditions.   The bio-liquid crystal polymer according to claim 1, wherein the predetermined condition is a predetermined temperature condition.   A bio liquid crystal polymer comprising poly-4-hydroxycinnamic acid or polylithocholic acid and having biocompatibility. It is composed of a biologically-derived compound having two or more reactive functional groups and an aromatic ring in the polymerizable main chain, or a homopolymer composed of one kind of this derivative or a copolymer composed of two or more kinds. Bio liquid crystal polymer. Biologically-derived compounds having at least one rigid structural site of a polymerizable aromatic ring, alicyclic ring, double bond or triple bond having at least two reactive functional groups in the main chain, or a homopolymer thereof. A bio liquid crystal polymer comprising a polymer. 7. The bio liquid crystal polymer according to claim 5, wherein the homopolymer is made of a biological compound having an aromatic ring in one kind of main chain selected from chlorogenic acids. The bio-liquid crystal polymer according to claim 5, wherein the copolymer comprises a biological compound having an aromatic ring in two main chains selected from chlorogenic acids. The copolymer comprises 4-hydroxycinnamic acid and a biological compound having an aromatic ring in one main chain selected from chlorogenic acids except 4-hydroxycinnamic acid. 6. The bio liquid crystal polymer according to 5. A biogenic compound having two or more reactive functional groups and having a polymerizable aromatic ring, alicyclic ring, double bond, or triple bond in the main chain or a derivative thereof. A bio liquid crystal polymer characterized by being constituted by a polymer. 4-Hydroxycinnamic acid and a biologically-derived compound having at least one rigid structural site having at least one polymerizable aromatic ring, alicyclic ring, double bond or triple bond having two or more reactive functional groups in its main chain Alternatively, a bio liquid crystal polymer characterized by comprising a copolymer comprising at least one derivative thereof. 4-hydroxycinnamic acid and an aromatic ring in the main chain selected from amino acids, sugars, terpenes, flavonoids, and steroids having two or more reactive functional groups and having a polymerizable and rigid structural site A bio liquid crystal polymer characterized by being constituted by a copolymer comprising at least one kind of a biologically derived compound.   A bio-liquid crystal polymer comprising a copolymer of 4-hydroxycinnamic acid and lithocholic acid.   14. The bio liquid crystal polymer according to claim 13, wherein the content of the lithocholic acid is more than 0 and 70 mol% or less.   The bio-liquid crystal polymer according to claim 13, wherein the lithocholic acid is contained in an amount of more than 0 and 30 mol% or less. Biologically derived compounds having two or more reactive functional groups and having an aromatic ring in the polymerizable main chain, or homopolymers composed of one of these derivatives or two or more biologically derived compounds having an aromatic ring in the main chain A bio-liquid crystal polymer, which is constituted by a copolymer comprising and formed into a fibrous form.   A molded article comprising a copolymer of 4-hydroxycinnamic acid and lithocholic acid, poly-4-hydroxycinnamic acid or polylithocholic acid.   A molded article comprising a copolymer of 4-hydroxycinnamic acid and lithocholic acid, poly-4-hydroxycinnamic acid or polylithocholic acid, which is applied to a biocompatible part.   Parts made of a copolymer of 4-hydroxycinnamic acid and lithocholic acid, poly-4-hydroxycinnamic acid or polylithocholic acid, requiring heat resistance or mechanical strength, or requiring heat resistance and mechanical strength A molded article characterized by being applied to parts.   It is made of a copolymer of 4-hydroxycinnamic acid and caffeic acid or poly-4-hydroxycinnamic acid, and is applied to parts requiring heat resistance or mechanical strength, or parts requiring heat resistance and mechanical strength. Molded article characterized by the following.   It is made of a copolymer of 4-hydroxycinnamic acid and lithocholic acid or poly-4-hydroxycinnamic acid, and is applied to an optical component utilizing a property of changing optical characteristics by light irradiation or heat irradiation. Molded body.