The present invention relates to a method for preparing substituted styrene derivatives.

Dimethoxyphenol-based monomers containing polymerizable functional groups such as [meth]acrylate groups are useful for the preparation of polymers, wherein one or more dimethoxyphenyl moieties are part of side chains pendant to the backbones of the polymers. The polymers thereby obtained may have different, improved properties, such as higher glass transition temperatures, thermal stability and solvent resistance, as compared to polymers based on other types of lignin-derived monomers.

The present invention relates to a method for preparing substituted styrene derivatives.

The present invention relates to a method for preparing substituted styrene derivatives.

A compound of formula (I): can be used as a monomer for making an underwater adhesive polymer. The compound of formula (I) can be prepared using eugenol as a starting material. ##STR00001##

Dimethoxyphenol-based monomers containing polymerizable functional groups such as [meth]acrylate groups are useful for the preparation of polymers, wherein one or more dimethoxyphenyl moieties are part of side chains pendant to the backbones of the polymers. The polymers thereby obtained may have different, improved properties, such as higher glass transition temperatures, thermal stability and solvent resistance, as compared to polymers based on other types of lignin-derived monomers.

Dimethoxyphenol-based monomers containing polymerizable functional groups such as [meth]acrylate groups are useful for the preparation of polymers, wherein one or more dimethoxyphenyl moieties are part of side chains pendant to the backbones of the polymers. The polymers thereby obtained may have different, improved properties, such as higher glass transition temperatures, thermal stability and solvent resistance, as compared to polymers based on other types of lignin-derived monomers.

A macromolecules containing metal and a use thereof as a catalyst, said macromolecules containing metal being obtained by causing a ligand to react with a zinc compound or a cobalt compound, said ligand having an imidazole group that is bonded to a macromolecule via a linker.

The present invention relates to a modified polymer having a high modification ratio and an excellent affinity with a filler, a method of preparing the same, a rubber composition including the modified polymer, and a molded article prepared from the rubber composition. The modified polymer according to the present invention may exhibit a high modification ratio by including functional groups in a polymer main chain and on at least one end thereof, and thus, an affinity with a filler, such as silica, may be excellent. Also, the rubber composition according to the present invention may have excellent processability by including the modified polymer having an excellent affinity with the filler, and, as a result, a processed product (e.g., tire) prepared by using the rubber composition may have excellent tensile strength, abrasion resistance, and wet road surface resistance.

A biocatalytic method is provided for preparing p-vinyl phenols by a three-step, one-pot reaction according to the following reaction scheme:

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wherein the three steps include: (a) optionally substituted phenol (1) is bound to pyruvic acid (BTS) to form optionally substituted tyrosine (2) by the catalytic action of a tyrosine phenol-lyase (TPL) and in the presence of ammonium ions, (b) ammonia is eliminated from tyrosine (2) by the catalytic action of a tyrosine ammonia-lyase (TAL) or a phenyl ammonia-lyase (PAL) to produce optionally substituted p-coumaric acid (3), and (c) p-coumaric acid (3) is subjected to a decarboxylation reaction by the catalytic action of a phenolic acid decarboxylase (PAD), to produce the desired, optionally substituted p-vinyl phenol (4); and (d) wherein the generated CO.sub.2 is removed from the reaction system to shift the chemical equilibrium of all three reaction steps (a), (b) and (c) towards the product side.