FTIR spectroscopy based identification and compatibility studies of Gamma Oryzanol with various polymers

It is possible to recognise ɣ-oryzanol, also known as Oliver, through the utilisation of an infrared spectroscopy technique. Infrared spectroscopy is a technique that is applied in a variety of fields, including research and industry, to measure a wide range of compounds and to carry out quality control. The numerous peaks that are present in the structure of ɣ-oryzanol were able to be discovered through the use of an IR spectroscopic technique. After that, the values of these peaks were compared to the normative reference standards to ascertain the functional groups that are included in the structure of ɣ-oryzanol. Infrared spectroscopy can, as a result, also be utilised for structural elucidation. During the course of this research, IR spectroscopy was utilised to ascertain whether or not Oliver is compatible with several different polymers. These polymers included HPMC, Sodium carboxy methyl cellulose, Eudragit E-100, Eudragit L-100, Eudragit RLPO and Carbopol 934. By analysing the peaks that appeared at various wavenumbers, it was possible to conclude that ɣ-Oryzanol can be combined well with several different polymers like Eudragit E-100, Eudragit L-100, Eudragit RLPO, HPMC, Sodium carboxy methyl cellulose, and Carbopol 934. Based on the findings of this research, it is abundantly obvious that FTIR spectrometry is capable of immediately determining whether or not a range of polymers contain ɣ-oryzanol. When compared to other chromatographic methods that have been described in the literature, the method that is being proposed makes use of commercial software that is not only straightforward, precise, and quick but also incorporates chemometric styles and the Beer-Lambert law. It is possible to complete sample preparation and spectral capture in a span of around five to ten minutes.