Simultaneous image analysis and DSC measurements - METTLER TOLEDO

DSC Microscopy Kit

Meer informatie.Microscoopoptie voor DSC-instrumenten

Gelijktijdige beeldanalyse en DSC

De combinatie van een DSC en een microscoop met CCD-camera biedt u de mogelijkheid om een monster te bekijken terwijl het wordt verwarmd of gekoeld.

Apparaten inbegrepen in de microscopieoptie

Een DSC-microscopiesysteem bevat een CCD-camera met beeldregistratie- en verwerkingssoftware die met het DSC-temperatuurprogramma is gesynchroniseerd.

Upgrade-mogelijkheid

Het is mogelijk om een DSC binnen een minuut te upgraden naar een DSC-microscopiesysteem, inclusief meetcapaciteit voor microscopie met gereflecteerd licht.

Artikelnummer: 51143087

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Specificaties - DSC Microscopy Kit
Techniek
Differentiële scanning calorimetrie (DSC)
Type
Optische analyse
Accessoire
ja
Optie
Nee

Documentatie

Productbrochure

DSC 3 Product Brochure
Differential scanning calorimetry (DSC) is the most frequently used thermal analysis technique. DSC measures enthalpy changes in samples due to change...
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Differential scanning calorimetry (DSC) is the most frequently used thermal analysis technique. DSC measures enthalpy changes in samples due to change...
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Thermal Analysis comprises a group of techniques that measure the physical or chemical properties of a sample as a function of temperature or time whi...
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Thermal analysis is a well-established analytical method that is widely used in many different fields. It provides laboratories with valuable results...

Gegevensbladen

Datasheet: DSC-Microscopy System
The system provides images of samples at predefined temperature or time intervals. A further evaluation possibility is to quantify color differences b...

Toebehoren

Application Examples


   
DSC-microscopy analysis of an active pharmaceutical ingredient

The melting point is an important characteristic property of a substance. The DSC measurement of an active pharmaceutical substance (API) yielded a curve with two main peaks – an endothermic peak with a maximum at 210.8 °C and an exothermic peak at about 228 °C. A smaller peak was also apparent between these two peaks at about 214 °C. The initial interpretation was that the endothermic peak at 210.8 °C is due to melting. The DSC-microscopy results, however, told a different story. No melting was observed at 211 °C – the first signs were detected at about 214 °C. Clearly, the endothermic DSC peak is not caused by a melting process. The color change of the molten substance leads one to conclude that it decomposes immediately on melting. The small DSC peak observed at about 214 °C is therefore the sum of two simultaneously occurring effects – endothermic melting and exothermic decomposition. Separate TGA-MS measurements showed that the endothermic DSC peak at 210.8 °C is caused by the evaporation of water of crystallization.
 



Dehydration of CoCl2 hexahydrate

The images illustrate the dehydration process of cobalt (II) chloride hexahydrate when it is heated from 30 °C at 1.5 K/min. The initial ruby-red color becomes lighter and lighter until it suddenly changes at about 55 °C. Further color changes are observed between 100 °C and 120 °C and at 160 °C. The differences can be quantified by calculating a curve showing image brightness as a function of temperature. The DSC curve shows a broad endothermic peak up to 80 °C with a sharp peak at about 55 °C superimposed on it. Two further endothermic peaks follow at about 104 and 130 °C. The brightness first increases and then suddenly decreases at about 55 °C. Afterward, it increases again in several steps. The peak at about 55 °C is due to a change in crystalline structure. The images around 55 °C show small droplets of water on the surface of the crystals. This indicates that part of the water of crystallization eliminated from the crystal lattice during the solid- solid transition collects on the surface of the crystals and then evaporates. This is completed by about 80 °C. The two broad endothermic peaks on the DSC curve and the step-like changes in the brightness are due to further loss of water of crystallization.

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DSC Microscopy Kit