Provided is a method of producing an anhydride of an organic mono-acid comprising contacting an organic mono-acid and a thermally regenerable anhydride to produce the anhydride of the organic mono-acid, and either a diacid of the regenerable anhydride, a partially hydrolyzed regenerable anhydride, or both. In a particular example, acetic acid and glutaric anhydride can be reacted to form acetic anhydride.

Provided is a method of producing an anhydride of an organic mono-acid comprising contacting an organic mono-acid and a thermally regenerable anhydride to produce the anhydride of the organic mono-acid, and either a diacid of the regenerable anhydride, a partially hydrolyzed regenerable anhydride, or both. In a particular example, acetic acid and glutaric anhydride can be reacted to form acetic anhydride.

Provided is a method of producing an anhydride of an organic mono-acid comprising contacting an organic mono-acid and a thermally regenerable anhydride to produce the anhydride of the organic mono-acid, and either a diacid of the regenerable anhydride, a partially hydrolyzed regenerable anhydride, or both. In a particular example, acetic acid and glutaric anhydride can be reacted to form acetic anhydride.

Provided is a method of producing an anhydride of an organic mono-acid comprising contacting an organic mono-acid and a thermally regenerable anhydride to produce the anhydride of the organic mono-acid, and either a diacid of the regenerable anhydride, a partially hydrolyzed regenerable anhydride, or both. In a particular example, acetic acid and glutaric anhydride can be reacted to form acetic anhydride.

A compound is represented by the following formula (1).

##STR00001##

In the compound represented by Formula (1), at least one of R.sub.1 to R.sub.24 is a group particularly high electron withdrawing property, such as a sulfonic acid group and a carboxylic acid group or a group having the next highest electron withdrawing property to the sulfonic acid group and the carboxylic acid group, such as a halogen atom.

Compounds which allosterically modulate and/or inhibit factor XIa activity are provided, as are methods of their use. These compounds include i) sulfated gallolyl glucosides, ii) sulfated quinazolinones, and iii) sulfated inositol analogs. The compounds used as anticoagulant agents.

Compounds which allosterically modulate and/or inhibit factor XIa activity are provided, as are methods of their use. These compounds include i) sulfated gallolyl glucosides, ii) sulfated quinazolinones, and iii) sulfated inositol analogs. The compounds used as anticoagulant agents.

An actinic ray-sensitive or radiation-sensitive resin composition containing (A) an acid-decomposable resin, (B) a compound represented by General Formula (b1), and (C) a compound represented by General Formula (c1), in which a ratio of a content of the compound (C) to a content of the compound (B) is from 0.01% by mass to 10% by mass. In the formulae, L represents a single bond or a divalent linking group. A represents a group that decomposes by the action of an acid. B represents a group that decomposes by the action of an acid, a hydroxy group, or a carboxy group. It should be noted that at least one B represents the hydroxy group or the carboxy group. n represents an integer from 1 to 5. X represents an (n+1)-valent linking group. M.sup.+ represents a sulfonium ion or an iodonium ion.

##STR00001##

A method for functionalization of an aromatic amino acid or a nucleobase with a fluoroalkyl-containing moiety RF, wherein the aromatic amino acid is reacted in the presence of at least one reductant with at least one hypervalent iodine fluoroalkyl reagent carrying the floroalkyl-containing moiety RF is disclosed. Novel hypervalent iodine fluoroalkyl reagents is also disclosed.

A method for functionalization of an aromatic amino acid or a nucleobase with a fluoroalkyl-containing moiety RF, wherein the aromatic amino acid is reacted in the presence of at least one reductant with at least one hypervalent iodine fluoroalkyl reagent carrying the floroalkyl-containing moiety RF is disclosed. Novel hypervalent iodine fluoroalkyl reagents is also disclosed.