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PRODUCTION OF A DIACYLGLYCEROL-ENRICHED SAFFLOWER OIL USING LIPASE-CATALYZED GLYCEROLYSIS OPTIMIZATION BY RESPONSE SURFACE METHODOLOGY
PRODUCTION OF A DIACYLGLYCEROL-ENRICHED SAFFLOWER OIL USING LIPASE-CATALYZED GLYCEROLYSIS OPTIMIZATION BY RESPONSE SURFACE METHODOLOGY
Investigation on synthesis and morphology characteristic of novel chiral poly(amide-imide)/TiO 2 nanocomposites derived from L-isoleucine-based diacid and 4 4 -methylenebis(3-chloro-2 6-diethylaniline
Microwave-assisted click chemistry synthesis of 1 2 3-triazoles from aryldiazonium silica sulfates in water
Effects of process parameters on synthesis of Zn ultrafine/nanoparticles by electromagnetic levitational gas condensation
Effects of process parameters on synthesis of Zn ultrafine/nanoparticles by electromagnetic levitational gas condensation
Synthesis Crystal Structure Electrochemical and Fluorescence Studies of a Novel Zn(II)-Fluorophore 1 10-Phenanthroline-5 6-dione (Phen-dione)
A Study of the Ionic Liquid Mediated Microwave Heating for the Synthesis of New Thermally Stable and Optically Active Aromatic Polyamides under Green Procedure
Design and synthesis of novel organosoluble chiral poly(amide-ether-imide-urea) containing L-leucine moieties in the main chain
Synthesis and characterization of novel optically active and photoactive aromatic polyesters containing 1 8-naphthalimidyl pendant group by step-growth polymerization
A Green Route for Synthesis of Different Polyureas Based on Phenylurazole Rapid Solid-state Microwave-assisted Technique
Microwave irradiation as a versatile tool for increasing reaction rates and yields in synthesis of optically active polyamides containing flexible L-leucine amino acid
Synthesis of Optically Active and Thermally Stable Polyamides With Bulky Aromatic Side Chain in an Ionic Liquid (Tetrabutylammonium Bromide)
Ionic Liquid as a Green Media for Rapid Synthesis of Optically Active Organosoluble Polyamides
ECO-FRIENDLY FAST SYNTHESIS AND THERMAL DEGRADATION OF OPTICALLY ACTIVE POLYAMIDES UNDER MICROWAVE ACCELERATING CONDITIONS