IDENTIFIKASI JENIS INTERAKSI SISTEM BINER FENOBARBITAL DAN ISOPROPILANTIPIRIN MELALUI METODA TERMAL
In pharmaceutical dosage forms, combination of two or more active substances is commonly used. The usage of this combination potentially exhibited problems in the manufacturing due to the physical interaction between the two materials, especially for compounds that have similar crystal lattice. T...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/79229 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | In pharmaceutical dosage forms, combination of two or more active substances is
commonly used. The usage of this combination potentially exhibited problems in the
manufacturing due to the physical interaction between the two materials, especially for
compounds that have similar crystal lattice. Therefore, this study was carried out to
identify the type of the occured interactions on a combination of two active ingredients, i.e
phenobarbital and isopropylantipyrine. Physical mixtures were prepared in molar
combination of phenobarbital and isopropylantipyrine (0.02:0.98), (0.075:0.925), (0.3:0.7),
(0.5:0.5), (0.7:0.3) and (0.9:0.1). Melting point of the mixture was determined using
thermal analysis method, hot stage polarizing microscope, electrothermal and Differential
Scanning Calorimetry (DSC), whilst the X-ray diffraction and Scanning Electron
Microscope (SEM) were applied in order to identify and confirm the termal analysis results.
Obtained data from thermal analysis was used to construct a phase diagram of binary
systems. Results from phase diagrams was compared to the observation of the contact
methods on the polarizing microscope. The result was molecular compound melt
congruently at 160ºC with two eutectic points at E1 = 102°C and E2 = 156°C. Both thermal
analysis and contact method showed identical results, namely congruently melted
molecular compound has been formed. Molecular compound has been formed in the
mixture of 0.5 molar with a melting point at 160°C. Resulted molecular compound shows
the new interferences on diffractogram of X-ray diffraction and new habit on the
microphoto of Scanning Electron Microscope (SEM) method.
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