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Microwave-Accelerated Preparation of Aromatic Polyamides Containing Phthalimide and S-Valine Pendent Groups in Ionic Liquids
23. Preparation of new optically active polyamides containing L-phenylalanine, phthalimide side chain via diisocyanate route by microwave energy: Comparison with conventional heating
Application of Microwave-assisted Reactions in Step-Growth Polymerization (A Review).
Use of ionic liquid and microwave irradiation as a convenient, rapid and eco-friendly method for synthesis of novel optically active and highly organosoluble aromatic polyamides containing N-phthaloyl-L-alanine pendent group
Safe and fast polyamidation of 5-[4-(2-phthalimidiyl-propanoylamino)benzoylamino]-isophthalic acid with aromatic diamines in ionic liquid under microwave irradiation
A facile, microwave-assisted synthesis of novel optically active polyamides derived from 3-methyl-2-(phthalimidylpentanoyl-amino)isophthalic acid and different diisocyanates
One-pot polyamidation reaction of optically active aromatic diacid containing methionine and phthalimide moieties with aromatic diamines under microwave irradiation and traditional heating
Synthesis and properties of novel soluble aromatic polyamides derived from 5-(2-phthalimidyl-3-methyl butanoylamino)isophthalic acid and aromatic diamines
Preparation and characterization of thermostable chiral extended polyamides bearing N-phthaloyl-L-leucine pendent architectures in green media
Synthesis of Novel Photoactive Heterocyclic Polyimides Containing Naphthalene Moieties via Cycloaddition Reactions.
An Efficient Method for Production and Storage of Unstable S-Nitrosothiols Under Mild and Heterogeneous Condition with Sodium Nitrite and Oxalic Acid Dihydrate
Highly Diastereoselective Synthesis of Novel Polymers Via Tandem Diels-Alder-Ene Reactions.
An Efficient Method for the Oxidation of Urazoles Under Mild and Heterogeneous Conditions
Synthesis of novel photoactive heterocyclic polyimides containing naphthalene moieties via cycloaddition reactions
Synthesis of Novel Polyurethanes with Fluorescein Linkages.