An experimental investigation and kinetic‐modeling study of the phase transformation behavior of glycine in various carboxylic acids

Abstract: In this study, the phase transformation behavior from β-glycine (Gly) to α-Gly was examined in the presence of three different carboxylic acid additives (acetic, tartaric, and citric acid) at three different concentrations. Initially, the structure, morphology, shape parameters, surface functional groups, and elemental properties of the crystals prepared from the additive-containing and nonadditive media were investigated. The characterization results showed that when compared with the pure medium, both the du… Show more

“…Zong et al 17 and Zhu et al 19 built a mathematical model to describe the kinetics of dissolution, nucleation, and growth processes during transformation by using experimental data of rifampicin and theophylline, respectively. Polat and Sayan 20 reported an experimental investigation and kinetic-modeling study of the SMPT of glycine under various carboxylic acids additives, using a simplified DAEM kinetic model (simplified distributed activation energy model). The mechanism of SMPT has also been investigated by some researchers.…”

Mechanism and Regulation Strategy of Solution-Mediated Polymorphic Transformation: A Case of 5-Nitrofurazone

“…Zong et al 17 and Zhu et al 19 built a mathematical model to describe the kinetics of dissolution, nucleation, and growth processes during transformation by using experimental data of rifampicin and theophylline, respectively. Polat and Sayan 20 reported an experimental investigation and kinetic-modeling study of the SMPT of glycine under various carboxylic acids additives, using a simplified DAEM kinetic model (simplified distributed activation energy model). The mechanism of SMPT has also been investigated by some researchers.…”

Mechanism and Regulation Strategy of Solution-Mediated Polymorphic Transformation: A Case of 5-Nitrofurazone