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Possible chemical reaction involving sodium pyrohosphate and calcium hypochlorite and acetone and sodium bicarbonate with objective to create new lipophilic compounds with cms activity
Accepted Answer
The reaction between sodium pyrophosphate, calcium hypochlorite, acetone, and sodium bicarbonate is complex and unlikely to directly yield lipophilic compounds with CMS activity. Here's a breakdown of why:
Sodium pyrophosphate (Na4P2O7): A common food additive and a component of some detergents. It's not typically used in organic synthesis to create lipophilic compounds. It's more likely to be involved in precipitation reactions.
Calcium hypochlorite (Ca(ClO)2): A strong oxidizing agent used in bleaching and water purification. It could potentially oxidize components of the mixture, but not in a predictable way to produce lipophilic compounds.
Acetone (CH3COCH3): A common solvent and starting material in organic synthesis. It's likely to be involved in any reaction involving the other compounds, but alone it won't create CMS activity.
Sodium bicarbonate (NaHCO3): A base and a common ingredient in baking. It could react with acids to produce CO2 gas, but it's unlikely to directly contribute to the formation of lipophilic compounds.
To design a reaction for lipophilic compounds with CMS activity, you'd need to focus on organic synthesis strategies, starting with appropriate reactants known to have the desired properties.
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