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Preparation of New Poly(amide-imide)s with Chiral Architectures via Direct Polyamidation Reaction
Ionic liquids as novel, green media for clean synthesis of soluble aromatic-aliphatic poly(amide-ester)s containing hydroxynaphthalene urazole moiety
Oxidation of Alcohols to carbonyl Compounds under Solvent-Free Conditions using Permanganate Supported on Alumina
10. A study of ,-diacrylate poly(dimethylsiloxane) containing vinyl ester of versatic acid/vinyl acetate emulsion copolymerization
Molten Tetrabutylammonium Bromide as Eco-Friendly Media for the Synthesis of Novel Optically Active and Thermal Stable Polyamides under Microwave Irradiation
N-Bromo Reagent Mediated Oxidation of Urazoles to Their Corresponding Triazolinediones under Mild and Heterogeneous Conditions
A Novel and Green Method for Polycondensation Reaction of 4-Phenylurazole with Different Diisocyanates under Solvent-Free Conditions
Synthesis, Characterization and Properties of a Series of Copoly(amide-imide-ether-urethane)s with a New Hard Segment Constituent. Study of the Effect of Hard Segment Content
Application of Microwave-assisted Reactions in Step-Growth Polymerization (A Review).
Synthesis and characterization of new optically active polyesters by step-growth polymerization of novel aromatic (2S)-4-[(4-methyl-2-phthalimidyl-pentanoylamino)benzoylamino]isophthalic acid with aromatic diols
Synthesis and Characterization of New Optically Active Segmented Poly(amide-imide-urethane) Based on Different Diacids via Isocyanate Route
Safe and fast polyamidation of 5-[4-(2-phthalimidiyl-propanoylamino)benzoylamino]-isophthalic acid with aromatic diamines in ionic liquid under microwave irradiation
Synthesis and characterization of novel organosoluble and optically active aromatic polyesters containing L-methionine and phthalimide pendent groups
Synthesis of Novel Photoactive Heterocyclic Polyimides Containing Naphthalene Moieties via Cycloaddition Reactions.
Oxidation of Urazoles to their Corresponding Triazolinediones Under Mild and Heterogeneous Conditions.