화학공학소재연구정보센터
Industrial & Engineering Chemistry Research, Vol.59, No.18, 8562-8570, 2020
Kinetics of Formation of Quantum Dot Solvent N-Oleoylmorpholine
The kinetics of the synthesis of noncommercially available quantum dot (QD) solvent N-oleoylmorpholine (NOM) was investigated in a semibatch reactor system to enable scale up. Morpholine was injected into excess oleic acid (OA) at rates of 250 and 500 mu L/h at 110, 140, and 170 degrees C. The reaction was found to be zero order in morpholine, first order in OA, and first order overall for temperatures >= 140 degrees C. At < 140 degrees C, the reaction does not follow elementary kinetics with respect to OA. Thermodynamic calculations using the Eyring-Polyani equation determined that the entropy change from the reagents to the transition state was negative, suggesting an associative complex intermediate species. The reaction mechanism was further analyzed via IR and NMR, revealing a carboxyl-amino intermediate, which was long lived (>1 h) at 110 degrees C but short lived (<30 min) at 170 degrees C. Conversions of 85% to near completion are achievable for OA, and excess morpholine was removed via rotary evaporation, thus yielding NOM with 70-98% purity.