An aspect of the present invention relates to a composition, which is a composition for a magnetic recording medium and comprises an isocyanate compound in the form of an adduct of a polyhydroxyl compound having one or more aromatic carbon rings and three or more hydroxyl groups per molecule with a polyisocyanate having two or more isocyanate groups per molecule.

The present invention relates to a polymerisable plasticiser formed by a hydrocarbon chain, one end of which bears more than one isocyanate function, said hydrocarbon chain comprising and/or being substituted by an aromatic ring and/or an aliphatic ring and/or said hydrocarbon chain is substituted by at least two hydrocarbon chains that can comprise an unsaturation, and the number of isocyanate functions being strictly greater than 1, preferably greater than 1.2, and, more preferably, grater than 1.5 but less than or equal to 2.2. The invention also relates to liquid polyurethane resin compositions and, in particular, stable, ready-to-use liquid polyurethane resin compositions comprising said plasticiser. The invention further relates to methods for replacing all or part of the exogenous plasticiser and/or solvent in a polyurethane resin by adding said polymerisable plasticiser.

The present invention relates to a polymerisable plasticiser formed by a hydrocarbon chain, one end of which bears more than one isocyanate function, said hydrocarbon chain comprising and/or being substituted by an aromatic ring and/or an aliphatic ring and/or said hydrocarbon chain is substituted by at least two hydrocarbon chains that can comprise an unsaturation, and the number of isocyanate functions being strictly greater than 1, preferably greater than 1.2, and, more preferably, grater than 1.5 but less than or equal to 2.2. The invention also relates to liquid polyurethane resin compositions and, in particular, stable, ready-to-use liquid polyurethane resin compositions comprising said plasticiser. The invention further relates to methods for replacing all or part of the exogenous plasticiser and/or solvent in a polyurethane resin by adding said polymerisable plasticiser.

Capsaicin compositions and methods for enhancing hydrophobicity of a molecule useful for pharmaceutical applications, including: (1) a prodrug using a linker such as a carbamate between capsaicin with other structures in order to optimize kinetic control of capsaicin cleavage; (2) a prodrug using a linker such as an unsaturated carboxylic ester between capsaicin with other structures in order to optimize kinetic control of capsaicin cleavage; (3) esters of long-chain fatty acids and capsaicin where hydroxyl groups provide handles for attachment of additional capsaicin molecules; and (4) the use of carboxylic acid diesters to increase overall hydrophobicity of two or more covalently-linked capsaicin molecules. Formulations of palmitated esters of capsaicin are also described, which are designed to enhance hydrophobicity of a molecule useful for pharmaceutical applications, for example to provide compounded mixtures designed to optimize analgesic efficacy.

Capsaicin compositions and methods for enhancing hydrophobicity of a molecule useful for pharmaceutical applications, including: (1) a prodrug using a linker such as a carbamate between capsaicin with other structures in order to optimize kinetic control of capsaicin cleavage; (2) a prodrug using a linker such as an unsaturated carboxylic ester between capsaicin with other structures in order to optimize kinetic control of capsaicin cleavage; (3) esters of long-chain fatty acids and capsaicin where hydroxyl groups provide handles for attachment of additional capsaicin molecules; and (4) the use of carboxylic acid diesters to increase overall hydrophobicity of two or more covalently-linked capsaicin molecules. Formulations of palmitated esters of capsaicin are also described, which are designed to enhance hydrophobicity of a molecule useful for pharmaceutical applications, for example to provide compounded mixtures designed to optimize analgesic efficacy.

Capsaicin compositions and methods for enhancing hydrophobicity of a molecule useful for pharmaceutical applications, including: (1) a prodrug using a linker such as a carbamate between capsaicin with other structures in order to optimize kinetic control of capsaicin cleavage; (2) a prodrug using a linker such as an unsaturated carboxylic ester between capsaicin with other structures in order to optimize kinetic control of capsaicin cleavage; (3) esters of long-chain fatty acids and capsaicin where hydroxyl groups provide handles for attachment of additional capsaicin molecules; and (4) the use of carboxylic acid diesters to increase overall hydrophobicity of two or more covalently-linked capsaicin molecules. Formulations of palmitated esters of capsaicin are also described, which are designed to enhance hydrophobicity of a molecule useful for pharmaceutical applications, for example to provide compounded mixtures designed to optimize analgesic efficacy.

The present invention provides a compound represented by formula (I) [wherein L represents an oxygen atom or CH.sub.2, E represents a C2-C10 chain hydrocarbon group or the like, R.sup.1 represents a C1-C3 chain hydrocarbon group or the like, R.sup.2 represents a C1-C3 chain hydrocarbon group or the like, and n is 0, 1, 2 or 3.] or its N oxide or agriculturally acceptable salt, which is a compound that have excellent pests controlling effects.

##STR00001##

Capsaicin compositions and methods for enhancing hydrophobicity of a molecule useful for pharmaceutical applications, including: (1) a prodrug using a linker such as a carbamate between capsaicin with other structures in order to optimize kinetic control of capsaicin cleavage; (2) a prodrug using a linker such as an unsaturated carboxylic ester between capsaicin with other structures in order to optimize kinetic control of capsaicin cleavage; (3) esters of long-chain fatty acids and capsaicin where hydroxyl groups provide handles for attachment of additional capsaicin molecules; and (4) the use of carboxylic acid diesters to increase overall hydrophobicity of two or more covalently-linked capsaicin molecules. Formulations of palmitated esters of capsaicin are also described, which are designed to enhance hydrophobicity of a molecule useful for pharmaceutical applications, for example to provide compounded mixtures designed to optimize analgesic efficacy.

Capsaicin compositions and methods for enhancing hydrophobicity of a molecule useful for pharmaceutical applications, including: (1) a prodrug using a linker such as a carbamate between capsaicin with other structures in order to optimize kinetic control of capsaicin cleavage; (2) a prodrug using a linker such as an unsaturated carboxylic ester between capsaicin with other structures in order to optimize kinetic control of capsaicin cleavage; (3) esters of long-chain fatty acids and capsaicin where hydroxyl groups provide handles for attachment of additional capsaicin molecules; and (4) the use of carboxylic acid diesters to increase overall hydrophobicity of two or more covalently-linked capsaicin molecules. Formulations of palmitated esters of capsaicin are also described, which are designed to enhance hydrophobicity of a molecule useful for pharmaceutical applications, for example to provide compounded mixtures designed to optimize analgesic efficacy.

A hydroxy functional alkyl carbamate is disclosed having the formula: ##STR00001##
wherein R comprises a substituted or unsubstituted C.sub.1 to C.sub.36 alkyl group, an aromatic group, and/or a polymeric moiety; wherein each R.sub.1 is independently a hydrogen, alkyl having at least 1 carbon, or a hydroxy functional alkyl having 2 or more carbons and at least one R.sub.1 is a hydroxy functional alkyl having 2 or more carbons; and n is 2-6. The present invention is also directed to a composition, and substrates coated therewith, comprising a film-forming resin; and a hydroxy functional alkyl carbamate crosslinker having the formula shown above. Other hydroxy functional alkyl carbamate compounds, polymers made with the same, and compositions comprising the same are also disclosed as are substrates coated at least in part with or formed with any of the compositions described herein.