This invention relates to a process for making phenolic fatty acid compounds having a reduced phenolic ester content. The invention also relates to method for chemically bonding a phenolic resin with a non-phenolic polymer (e.g., a synthetic fabric). The method comprises contacting a phenolic fatty acid compound with a non-phenolic polymer to introduce a hydroxy phenyl functional group into the non-phenolic polymer; and reacting the hydroxy phenyl functional group contained in the non-phenolic polymer with a phenolic resin or a phenolic crosslinker composition capable of forming a phenolic resin, to chemically bond the phenolic resin with the non-phenolic polymer. The invention is particularly useful for making a synthetic fabric-reinforced article, such as synthetic fabric-reinforced rubber article, circuit board substrate, or fiberglass.

The disclosure relates to the technical field of sterilizing and disinfecting materials, and specifically relates to an α-substituted phenyl structure-containing compound, a preparation method thereof, and a disinfectant. The α-substituted phenyl structure-containing compound according to the disclosure could achieve a bactericidal effect by promoting the coagulation and denaturation of the protein of pathogenic microorganisms. In particular, it has a good killing effect on pathogenic bacteria such as Escherichia coli, Staphylococcus aureus, Pseudomonas aeruginosa, and Bacillus subtilis var. niger spores. Besides, it has no corrosive effect on metals, no irritating odor, good water solubility, and is green and environmentally friendly. Therefore, it could be widely used in various industries as an effective ingredient of a disinfectant.

The disclosure relates to the technical field of sterilizing and disinfecting materials, and specifically relates to an α-substituted phenyl structure-containing compound, a preparation method thereof, and a disinfectant. The α-substituted phenyl structure-containing compound according to the disclosure could achieve a bactericidal effect by promoting the coagulation and denaturation of the protein of pathogenic microorganisms. In particular, it has a good killing effect on pathogenic bacteria such as Escherichia coli, Staphylococcus aureus, Pseudomonas aeruginosa, and Bacillus subtilis var. niger spores. Besides, it has no corrosive effect on metals, no irritating odor, good water solubility, and is green and environmentally friendly. Therefore, it could be widely used in various industries as an effective ingredient of a disinfectant.

The disclosure relates to the technical field of sterilizing and disinfecting materials, and specifically relates to an α-substituted phenyl structure-containing compound, a preparation method thereof, and a disinfectant. The α-substituted phenyl structure-containing compound according to the disclosure could achieve a bactericidal effect by promoting the coagulation and denaturation of the protein of pathogenic microorganisms. In particular, it has a good killing effect on pathogenic bacteria such as Escherichia coli, Staphylococcus aureus, Pseudomonas aeruginosa, and Bacillus subtilis var. niger spores. Besides, it has no corrosive effect on metals, no irritating odor, good water solubility, and is green and environmentally friendly. Therefore, it could be widely used in various industries as an effective ingredient of a disinfectant.

The present invention relates novel methods of synthesizing terphenyl compounds and in particular to novel methods for the synthesis of a compound of Formula I ##STR00001##
or intermediates thereof.

The present invention relates novel methods of synthesizing terphenyl compounds and in particular to novel methods for the synthesis of a compound of Formula I ##STR00001##
or intermediates thereof.

The present invention relates to compounds and their use in the prophylactic and/or therapeutic treatment of pulmonary fibrosis and/or related conditions.

The present invention relates to compounds and their use in the prophylactic and/or therapeutic treatment of pulmonary fibrosis and/or related conditions.

This invention relates to a process for making phenolic fatty acid compounds having a reduced phenolic ester content. The invention also relates to method for chemically bonding a phenolic resin with a non-phenolic polymer (e.g., a synthetic fabric). The method comprises contacting a phenolic fatty acid compound with a non-phenolic polymer to introduce a hydroxy phenyl functional group into the non-phenolic polymer; and reacting the hydroxy phenyl functional group contained in the non-phenolic polymer with a phenolic resin or a phenolic crosslinker composition capable of forming a phenolic resin, to chemically bond the phenolic resin with the non-phenolic polymer. The invention is particularly useful for making a synthetic fabric-reinforced article, such as synthetic fabric-reinforced rubber article, circuit board substrate, or fiberglass.

This invention relates to a process for making phenolic fatty acid compounds having a reduced phenolic ester content. The invention also relates to method for chemically bonding a phenolic resin with a non-phenolic polymer (e.g., a synthetic fabric). The method comprises contacting a phenolic fatty acid compound with a non-phenolic polymer to introduce a hydroxy phenyl functional group into the non-phenolic polymer; and reacting the hydroxy phenyl functional group contained in the non-phenolic polymer with a phenolic resin or a phenolic crosslinker composition capable of forming a phenolic resin, to chemically bond the phenolic resin with the non-phenolic polymer. The invention is particularly useful for making a synthetic fabric-reinforced article, such as synthetic fabric-reinforced rubber article, circuit board substrate, or fiberglass.