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Microwave Step-Growth Polymerization of 5-(4-methyl-2-phthalimidylpentanoylamino)-isophthalic acid with Different Diisocyanates.
...Direct Polycondensation of N-trimellitylimido-L-isoleucine diacid with aromatic Diols
Construction, Characterization and Biological Activity of Chiral and Thermally Stable Nanostructured Poly(Ester-Imide)s as Tyrosine-Containing Pseudo-Poly(Amino Acid)
Polymer Nanocomposites Containing 4, 4′-Methylene Bis (3-Chloro-2, 6-Diethylaniline) and N, N′-(Pyromellitoyl)-Bis-L-Phenylalanine Diacid Reinforced with Modified ZnO and Organo-Montmorillonite
Microwave-Assisted Construction of Nanostructured Poly(amide-imide)s Containing Environmentally Friendly Natural Amino Acids via Implementation of Molten Salt Ionic Liquid as an Activating Media
Improvement in hydrophobicity of Polyester Fabric Finished with Fluorochemicals via Aminolysis and Comparing with Nano-silica Particles
OXIDATION OF ALCOHOLS TO CARBONYL COMPOUNDS UNDER SOLVENT-FREE CONDITIONS USING PERMANGANATE SUPPORTED ON ALUMINA
Fabrication and in vitro degradation study of novel optically Active polymers derived from amino acid containing diacids and 4,4΄-thiobis(2-tert-butyl-5-methylphenol).
Simple and efficient microwave-assisted polycondensation for preparation of chiral poly(amideimide)s having pendant phenol moiety.
Thermally Stable and Optically Active Poly(amide-imide)s Derived from 4,4'–(hexafluoroisopropylidene)-N,N'-bis-(phthaloyl-L-methionine) Diacid Chloride and Various Aromatic Diamines: Synthesis and Characterization.
Soluble Novel Optically Active Poly(Amide-Imide)s Derived from N,N'-(4,4'-Oxydiphthaloyl)-bis-L-leucine Diacid Chloride and Various Aromatic Diamines: Synthesis and Characterization.
Advances in synthetic optically active condensation
Reinforcement of poly(vinyl alcohol) with chiral poly(amide-imide)s nanoparticles containing S-valine under simple ultrasonic irradiation method
An efficient microwave-assisted synthesis of optically active polyamides in the presence of ionic liquid and conventional solvent: A comparative study
A simple and convenient method for the surface coating of TiO2 nanoparticles with bioactive chiral diacids containing different amino acids as the coupling agent