Preparation of soluble poly(amide imide) derivatives with metal salts and phosphorous compounds

## Abstract __N__‐trimellitylimido‐L‐methionine (**3**) was prepared by reaction of trimellitic anhydride (**1**) with ‐L‐methionine (**2**) in acetic acid solution at refluxing temperature. This diacid was reacted with thionyl chloride, and __N__‐trimellitylimido‐L‐methionine diacid chloride (**4*

Composite membranes were prepared by the interfacial condensation of water-soluble diamines with an organic solvent (dichloromethane)-soluble dicarbomethoxy terephthaloyl chloride or carbomethoxy terephthaloyl chloride on top of a porous aluminum oxide support. The morphology of skin on the composit

## Abstract Epiclon [3a,4,5,7a‐tetrahydro‐7‐methyl‐5‐(tetrahydro‐2,5‐dioxo‐3‐furanyl)‐1,3‐isobenzofurandione] or [5‐(2,5‐dioxotetrahydrofurfuryl)‐3‐methyl‐3‐cyclohexyl‐1,2‐dicarboxylic acid anhydride] (1) was reacted with L‐isoleucine (2) in acetic acid and the resulting imide acid (3) was obtained

In order to prepare phosphoric acid resins (RGPs) with large cation exchange capacities, effects of porosity and cross-linking of the precursory poly(glycidyl methacrylate-co-divinylbenzene) beads on their functionalization with phosphoric acid were studied. Two series of precursory copolymers were