A catalyst molded body, a production method thereof and a method for preparing cyclic ketone using the same, including: (a) producing a mixed powder including a catalyst powder and a binder; (b) producing a slurry by mixing an aqueous alkali hydroxide solution with the mixed powder; and obtaining a catalyst molded body by molding and heat-treating the slurry.

A catalyst molded body, a production method thereof and a method for preparing cyclic ketone using the same, including: (a) producing a mixed powder including a catalyst powder and a binder; (b) producing a slurry by mixing an aqueous alkali hydroxide solution with the mixed powder; and obtaining a catalyst molded body by molding and heat-treating the slurry.

The present invention reports the obtaining of carbonyl compounds and derivatives, through syntheses with high yield and purity, providing anti-humoral active principles with selective antiproliferative properties and anti-metastatic activity.

The present invention refers to the development of new polyfunctional push-pull butadienes and their O and C-prenylated, benzoylated and iodide derivatives, with high electronic conjugation in the lateral chain. These compounds exhibit high anti-tumor selectivity, causing cell death by apoptosis, also show anti-metastatic and non-mutagenic properties in the experimental studies performed.

The present invention reports the obtaining of carbonyl compounds and derivatives, through syntheses with high yield and purity, providing anti-humoral active principles with selective antiproliferative properties and anti-metastatic activity.

The present invention refers to the development of new polyfunctional push-pull butadienes and their O and C-prenylated, benzoylated and iodide derivatives, with high electronic conjugation in the lateral chain. These compounds exhibit high anti-tumor selectivity, causing cell death by apoptosis, also show anti-metastatic and non-mutagenic properties in the experimental studies performed.

A process for making sorbic acid from renewable materials is provided. The process comprises converting acetic acid to ketene; converting acetaldehyde to crotonaldehyde; reacting the ketene with the crotonaldehyde to produce a polyester; and converting the polyester to sorbic acid. Renewable materials are incorporated by one of the following methods: a) the acetic acid is produced by reacting methanol derived from renewable organic material with carbon monoxide, b) the acetic acid is a biobased acetic acid, c) the crotonaldehyde is a biobased crotonaldehyde, d) the crotonaldehyde is produced by converting a biobased acetaldehyde to crotonaldehyde, e) the crotonaldehyde is produced by converting acetaldehyde to crotonaldehyde and the acetaldehyde is produced from bioethylene, or any combination of a), b), c), d) and e).

A process for making sorbic acid from renewable materials is provided. The process comprises converting acetic acid to ketene; converting acetaldehyde to crotonaldehyde; reacting the ketene with the crotonaldehyde to produce a polyester; and converting the polyester to sorbic acid. Renewable materials are incorporated by one of the following methods: a) the acetic acid is produced by reacting methanol derived from renewable organic material with carbon monoxide, b) the acetic acid is a biobased acetic acid, c) the crotonaldehyde is a biobased crotonaldehyde, d) the crotonaldehyde is produced by converting a biobased acetaldehyde to crotonaldehyde, e) the crotonaldehyde is produced by converting acetaldehyde to crotonaldehyde and the acetaldehyde is produced from bioethylene, or any combination of a), b), c), d) and e).

Provided herein is a method for producing methyl pentenone (MPO) in high yield in a continuous mode in a fixed bed reactor having a plurality of sidewall injecting ports by reacting excess methyl ethyl ketone (MEK) with acetaldehyde in presence of a cation exchange resin catalyst, wherein the acetaldehyde is injected from the plurality of sidewall injecting ports of the reactor. The method is also effective in reducing the complete consumption of the catalyst during the course of the reaction.

Provided herein is a method for producing methyl pentenone (MPO) in high yield in a continuous mode in a fixed bed reactor having a plurality of sidewall injecting ports by reacting excess methyl ethyl ketone (MEK) with acetaldehyde in presence of a cation exchange resin catalyst, wherein the acetaldehyde is injected from the plurality of sidewall injecting ports of the reactor. The method is also effective in reducing the complete consumption of the catalyst during the course of the reaction.

The invention relates to Guerbet alcohol precursors and Guerbet alcohols, as well as to processes for synthesizing them.

The invention relates to Guerbet alcohol precursors and Guerbet alcohols, as well as to processes for synthesizing them.