The phase diagram for the AgNO3−KNO3 system has been determined using differential scanning calorimetry (DSC). Eutectic point has been found at 391 K andXAg=0.580 mole fraction AgNO3. The DSC curves indicate the existence of an intermermediate compound (AgNO3·KNO3) in the KNO3-rich region of the phase diagram. This compound was identified in the solid phase by X-ray diffraction. The melting and the
crystallization processes were followed with the aid of a hot stage microscope, too.
DSC purity analysis is based on thermodynamic phase diagrams for substances (purity ≥98%) which undergo a melting point. Impurities
which have eutectic behaviour with the analyte are determined together.
DSC purity analysis obtained from a single melting event of a 1–2 mg sample is, therefore, extremely attractive for the global
assessment of eutectic impurities. The main advantages in early development lie in the very small amount of material necessary
and the very fast analysis time.
However, the DSC purity analysis cannot replace chromatographic methods which deliver specific individual levels of impurities.
Furthermore, a complete validation of a DSC purity method is difficult and time consuming. Despite these limitations, DSC
is the best support for the development of chromatographic methods, for purity profile and stability assessment during pharmaceutical
Parameters of purity determination and validation aspects are discussed. Examples of use in pharmaceutical development are
Authors:Agata Górniak, Alina Wojakowska, Bożena Karolewicz, and Janusz Pluta
the thermal events rises when approaching to the eutecticpoint. In this study the thermal effect corresponding to the eutectic reaction was noticeable on DSC curves for all the mixtures examined ( Figs. 4 , 5 , and 6 ).
Authors:Satya Girish Avula, Kenneth Alexander, and Alan Riga
faster release of the drug present in the carrier [ 3 ].
The general method of preparing the samples, running through the Differential Scanning Calorimetry (DSC), and interpreting the results to obtain the eutecticpoint is labor-intensive and
Authors:Daniela-Crina Marinescu, Elena Pincu, and Viorica Meltzer
observed. The DSC measurements indicate a simple eutecticpoint for the mixture, and this makes the binary mixture suitable for different applications. Comparing the experimental phase diagram and the ideal phase diagram, the system deviation from the ideal
determined at 444 and 447 °C are small in comparison to the ternary eutectic peak determined at 403 °C. This confirms the close proximity of the ternary eutecticpoint. The microstructure of the AZS12 sample consists of a large fraction of the ternary
The phase diagrams of nifedipine-polyethylene glycol (PEG) 4000 and nifedipine-mannitol systems have been determined. Heating
experiments on thermodynamically equilibrated co-melts revealed eutectic behaviour for nifedipine-PEG 4000 mixtures, with
the composition of the eutectic point between 40 and 45%w/w of nifedipine. These observations were supported by optical and hot stage microscopy. Nifedipine and mannitol were negligibly
miscible in the solid-state, behaving as a binary system with monotectic characteristics. Application of phase diagrams to
the production of solid dispersions is shown to be rational, since they provide valuable information on the state of the binary
systems under preparation.
Authors:L. Aït Hmaïdouch, S. Mançour Billah, and M. El Hadek
The solid—liquid equilibria of the ternary system H2O—Al(NO3)3—Mg(NO3)2 were studied at –30, –20, –10 and 0°C by using a synthetic method which allows to detemine all the characteristic points of isothermal sections. The stable solid phases which appear are respectively: ice, Al(NO3)3·9H2O, Mg(NO3)2·9H2O and Mg(NO3)2·6H2O. Neither double salts nor mixed crystals are observed in the temperature and composition field studied. Polytherm diagram layout show two invariant transformations correspond with an eutectic point and a peritectic point.
Thermal analysis of the binary system KCl-LiCl in the composition range 0.368–0.812 mol fraction of LiCl was studied by differential
scanning calorimetry (DSC). On the basis of the DSC curves, the experimental data for the phase-diagram, the latent heat of
fusion, and the average specific heat in the liquid and solid states are presented as a function of the composition of the
mixture. The experimental results compared with literature data. The following empirical correlation between the heat of fusion
(ΔH) and of compositions of the mixture in mol fraction of LiCl (x) was obtained: ·GH=26.95−50.20x+43.06x2 with a minimum value of 11.8 kJ(g mol)−1 at the eutectic point of 0.587 mol fraction of LiCl at 354.4°C. These results are required as basic data to develop thermal
energy storage materials, based on the phase change of a molten mixture of KCl-LiCI.