An active ester compound that can form a cured product having excellent dielectric properties and copper foil adhesion properties is provided, a curable composition including the active ester compound is provided, and a cured product of the curable composition is provided. Also provided are a semiconductor encapsulating material, a printed wiring board, and a build-up film formed by using the curable composition. Specifically, an active ester compound is provided which includes a fluorinated hydrocarbon structural moiety and a plurality of aromatic ester structural moieties in the structure of the molecule and includes an aryloxycarbonyl structure or an arylcarbonyloxy structure at an end of the molecule, a curable composition including the active ester compound, and a cured product of the curable composition, and also provided are a semiconductor encapsulation material, a printed wiring board, and a build-up film formed by using the curable composition.

A method for purification and extraction of cannabinoids includes: providing a cannabis oil including phospholipids and cannabinoid acids; contacting the cannabis oil with a degumming solvent, wherein the degumming solvent and cannabis oil are substantially immiscible; and separating an aqueous phase including the degumming solvent and at least a portion of the phospholipids from an oil phase including the cannabis oil. The method may further include contacting the oil phase with an extraction solvent, where the extraction solvent and oil phase are substantially immiscible; and separating an aqueous phase including the extraction solvent and at least a portion of the cannabinoid acids from a second oil solvent phase including the oil phase and/or simply the liberated cannabinoids following acidification of the extraction solvent.

A method for purification and extraction of cannabinoids includes: providing a cannabis oil including phospholipids and cannabinoid acids; contacting the cannabis oil with a degumming solvent, wherein the degumming solvent and cannabis oil are substantially immiscible; and separating an aqueous phase including the degumming solvent and at least a portion of the phospholipids from an oil phase including the cannabis oil. The method may further include contacting the oil phase with an extraction solvent, where the extraction solvent and oil phase are substantially immiscible; and separating an aqueous phase including the extraction solvent and at least a portion of the cannabinoid acids from a second oil solvent phase including the oil phase and/or simply the liberated cannabinoids following acidification of the extraction solvent.

A resist composition comprising a base polymer and a quencher containing a sulfonium salt having an iodized benzene ring offers a high sensitivity, minimal LWR and improved CDU independent of whether it is of positive or negative tone.

A resist composition comprising a base polymer and a quencher containing a sulfonium salt having an iodized benzene ring offers a high sensitivity, minimal LWR and improved CDU independent of whether it is of positive or negative tone.

The invention is a herbicidal composition containing an alkanolamine salt of an dicamba capable of remaining as a single phase liquid over a period of at least 1 week and containing low amounts of water and high loadings of the salt. Such herbicidal compositions are capable of remaining liquid in the absence of high amounts of water, thereby enhancing their capacity to remain liquid over an extended period of time when exposed to environmental conditions to improve their effectiveness to transport the active salt through a leafy substrate and can reduce transportation costs by increasing the salt loading without compromising the stability of the composition.

The invention is a herbicidal composition containing an alkanolamine salt of an dicamba capable of remaining as a single phase liquid over a period of at least 1 week and containing low amounts of water and high loadings of the salt. Such herbicidal compositions are capable of remaining liquid in the absence of high amounts of water, thereby enhancing their capacity to remain liquid over an extended period of time when exposed to environmental conditions to improve their effectiveness to transport the active salt through a leafy substrate and can reduce transportation costs by increasing the salt loading without compromising the stability of the composition.

The present disclosure provides a benzene fused heterocyclic derivative of Formula (I): is a single or double bond; n is an integer of 0 or 1; A is —CH.sub.2—, —CH(OH)—, or —C(O)—; G is C or N; X is —CH.sub.2—, O, or —C(O)—; Y is alkyl, aryl, or heterocyclic alkyl optionally substituted with at least one substituent independently selected from a group consisting of: H, halogen, alkyl, alkyl substituted with at least one halogen, aryl, aryl substituted with at least one halogen, —NR.sub.y1R.sub.y2, —OR.sub.y1, —R.sub.y1C(O)R.sub.y3, —C(O)R.sub.y1, —C(O)OR.sub.y2, —C(O)OR.sub.y2Ry3, —NR.sub.y1C(O)R.sub.y2, —NR.sub.y1C(O)NR.sub.y2R.sub.y3, —NR.sub.y1C(O)OR.sub.y2R.sub.y3, —NR.sub.y1C(O)R.sub.y2OR.sub.y3, C(O)NR.sub.y1(R.sub.y2R.sub.y3), —C(O)NR.sub.y1(R.sub.y2OR.sub.y1), —OR.sub.y2R.sub.y3, and —OR.sub.y2OR.sub.y3, wherein each of R.sub.y1 and R.sub.y2 is independently selected from a group consisting of H, oxygen, alkyl, and aryl, and R.sub.y3 is aryl optionally substituted with at least one halogen; Z is —NR.sub.z1R.sub.z2, —NR.sub.z1R.sub.z3, —OR.sub.z1, —OR.sub.z1R.sub.z3, —C(O)R.sub.z1R.sub.z3, —C(O)OR.sub.z1R.sub.z3, —NR.sub.z1C(O)R.sub.z2R.sub.z3, —NR.sub.z1C(O)OR.sub.z2R.sub.z3, —C(O)NR.sub.z1R.sub.z3, or OR.sub.z2OR.sub.z3, wherein each of R.sub.z1 and R.sub.z2 is independently selected from a group consisting of H, oxygen, alkyl and aryl, and R.sub.z3 is aryl optionally substituted with at least one substituent independently selected from a group consisting of halogen, OH, —R.sub.zaCOOR.sub.zb, —OR.sub.zaCOOR.sub.zb, —R.sub.zaSO.sub.2R.sub.zb, —R.sub.zaSO.sub.2NR.sub.zbR.sub.zcR.sub.zd, —R.sub.zaC(O)R.sub.zbR.sub.zc, —R.sub.zaC(O)NR.sub.zbR.sub.zcR.sub.zd, —RZ.sub.aC(O)NR.sub.zbSO.sub.2R.sub.zc, wherein Rza is nil or alkyl, R.sub.zb is H or alkyl, each of R.sub.zb and R.sub.zc is independently selected from a group consisting of H, OH, alkyl, aryl, alkoxyl, or NR.sub.zbR.sub.zc is a nitrogen-containing heterocyclic alkyl ring, R.sub.zd is nil or a sulfonyl alkyl group. ##STR00001##

The present disclosure provides a benzene fused heterocyclic derivative of Formula (I): is a single or double bond; n is an integer of 0 or 1; A is —CH.sub.2—, —CH(OH)—, or —C(O)—; G is C or N; X is —CH.sub.2—, O, or —C(O)—; Y is alkyl, aryl, or heterocyclic alkyl optionally substituted with at least one substituent independently selected from a group consisting of: H, halogen, alkyl, alkyl substituted with at least one halogen, aryl, aryl substituted with at least one halogen, —NR.sub.y1R.sub.y2, —OR.sub.y1, —R.sub.y1C(O)R.sub.y3, —C(O)R.sub.y1, —C(O)OR.sub.y2, —C(O)OR.sub.y2Ry3, —NR.sub.y1C(O)R.sub.y2, —NR.sub.y1C(O)NR.sub.y2R.sub.y3, —NR.sub.y1C(O)OR.sub.y2R.sub.y3, —NR.sub.y1C(O)R.sub.y2OR.sub.y3, C(O)NR.sub.y1(R.sub.y2R.sub.y3), —C(O)NR.sub.y1(R.sub.y2OR.sub.y1), —OR.sub.y2R.sub.y3, and —OR.sub.y2OR.sub.y3, wherein each of R.sub.y1 and R.sub.y2 is independently selected from a group consisting of H, oxygen, alkyl, and aryl, and R.sub.y3 is aryl optionally substituted with at least one halogen; Z is —NR.sub.z1R.sub.z2, —NR.sub.z1R.sub.z3, —OR.sub.z1, —OR.sub.z1R.sub.z3, —C(O)R.sub.z1R.sub.z3, —C(O)OR.sub.z1R.sub.z3, —NR.sub.z1C(O)R.sub.z2R.sub.z3, —NR.sub.z1C(O)OR.sub.z2R.sub.z3, —C(O)NR.sub.z1R.sub.z3, or OR.sub.z2OR.sub.z3, wherein each of R.sub.z1 and R.sub.z2 is independently selected from a group consisting of H, oxygen, alkyl and aryl, and R.sub.z3 is aryl optionally substituted with at least one substituent independently selected from a group consisting of halogen, OH, —R.sub.zaCOOR.sub.zb, —OR.sub.zaCOOR.sub.zb, —R.sub.zaSO.sub.2R.sub.zb, —R.sub.zaSO.sub.2NR.sub.zbR.sub.zcR.sub.zd, —R.sub.zaC(O)R.sub.zbR.sub.zc, —R.sub.zaC(O)NR.sub.zbR.sub.zcR.sub.zd, —RZ.sub.aC(O)NR.sub.zbSO.sub.2R.sub.zc, wherein Rza is nil or alkyl, R.sub.zb is H or alkyl, each of R.sub.zb and R.sub.zc is independently selected from a group consisting of H, OH, alkyl, aryl, alkoxyl, or NR.sub.zbR.sub.zc is a nitrogen-containing heterocyclic alkyl ring, R.sub.zd is nil or a sulfonyl alkyl group. ##STR00001##

Provided herein are solid forms comprising (a) 4-amino-2-(2,6-dioxopiperidine-3-yl)isoindoline-1,3-dione and (b) a coformer. Pharmaceutical compositions comprising the solid forms (e.g., cocrystals) and methods for treating, preventing and managing various disorders are also disclosed.