A flame retardant itaconic acid-based compound, a process for forming a flame retardant polymer, and an article of manufacture comprising a material that contains a flame retardant itaconic acid-based polymer are disclosed. The flame retardant itaconic acid-based compound has variable moieties, which include methylene bridge groups, carbonyl groups, vinyl groups, functionalized groups, phenyl-substituted flame retardant groups, and/or functionalized flame retardant groups. The process for forming the flame retardant polymer includes forming a phosphorus-based flame retardant molecule, forming an itaconic acid derivative, chemically reacting the phosphorus-based flame retardant molecule and the itaconic acid derivative to form a flame retardant itaconic acid-based compound, and incorporating the itaconic acid-based flame retardant compound into a polymer to form the flame retardant polymer.

A flame retardant itaconic acid-based compound, a process for forming a flame retardant polymer, and an article of manufacture comprising a material that contains a flame retardant itaconic acid-based polymer are disclosed. The flame retardant itaconic acid-based compound has variable moieties, which include methylene bridge groups, carbonyl groups, vinyl groups, functionalized groups, phenyl-substituted flame retardant groups, and/or functionalized flame retardant groups. The process for forming the flame retardant polymer includes forming a phosphorus-based flame retardant molecule, forming an itaconic acid derivative, chemically reacting the phosphorus-based flame retardant molecule and the itaconic acid derivative to form a flame retardant itaconic acid-based compound, and incorporating the itaconic acid-based flame retardant compound into a polymer to form the flame retardant polymer.

A flame retardant itaconic acid-based compound, a process for forming a flame retardant polymer, and an article of manufacture comprising a material that contains a flame retardant itaconic acid-based polymer are disclosed. The flame retardant itaconic acid-based compound has variable moieties, which include methylene bridge groups, carbonyl groups, vinyl groups, functionalized groups, phenyl-substituted flame retardant groups, and/or functionalized flame retardant groups. The process for forming the flame retardant polymer includes forming a phosphorus-based flame retardant molecule, forming an itaconic acid derivative, chemically reacting the phosphorus-based flame retardant molecule and the itaconic acid derivative to form a flame retardant itaconic acid-based compound, and incorporating the itaconic acid-based flame retardant compound into a polymer to form the flame retardant polymer.

The present invention relates to a process for the preparation of limonene-4-ol by an epoxide ring opening isomerization of terpinolene epoxide.

The present invention relates to a process for the preparation of limonene-4-ol by an epoxide ring opening isomerization of terpinolene epoxide.

The present invention relates to a process for the preparation of limonene-4-ol by an epoxide ring opening isomerization of terpinolene epoxide.

The present invention refers to a process for the asymmetric synthesis of isopiperitenol and successor compounds.

The present invention refers to a process for the asymmetric synthesis of isopiperitenol and successor compounds.

Proposed is a catalyst system specifically for the rearrangement of epoxides into allyl alcohols comprising or consisting of (a) a salt of formula (I) XY (I) in which X represents Zn.sup.2+ and/or Co.sup.2+ and Y represents an anion selected from the group formed from laurate, palmitate, stearate, picolinate, glycinate, gluconate, naphthenate, 2-hexyldecanoate, 2-octyldodecanoate, cyclohexane butyrate and mixtures thereof, and (b) at least one aminophenol.

Proposed is a catalyst system specifically for the rearrangement of epoxides into allyl alcohols comprising or consisting of (a) a salt of formula (I) XY (I) in which X represents Zn.sup.2+ and/or Co.sup.2+ and Y represents an anion selected from the group formed from laurate, palmitate, stearate, picolinate, glycinate, gluconate, naphthenate, 2-hexyldecanoate, 2-octyldodecanoate, cyclohexane butyrate and mixtures thereof, and (b) at least one aminophenol.