Magnesium silicate is an inorganic compound which can be used as an ingredient in product formulations for many different purposes. Since its compatibility with other ingredients is critical for product quality and stability, it is essential to characterize the integrity of magnesium silicate in different solutions used for various product formulations. In this paper, we have determined the magnitude of dissociation of synthetic magnesium silicate in positive, neutral, and negative charged compounds using Scanning Electron Microscopy (SEM), Energy Dispersive X-ray Spectroscopy (EDS), and verified the results using Liquid Chromatography-High Resolution Mass Spectrometry (LC-HRMS). Negatively charged compounds were found to significantly impact magnesium silicate dissociation, resulting in physio-chemical separation between magnesium and silicate ions while the positively charged compound had a minor effect on dissociation due to ion competition, and the neutral compound did not have such an impact on magnesium silicate dissociation. Further, when the magnesium ions are dissociated from the synthetic magnesium silicate, the morphology is changed accordingly, and the structural integrity of the synthetic magnesium silicate is damaged. The results provide a scientific confidence and guidance for product development using the synthetic magnesium silicate.