Recrystallization is a purification technique used to purify solidcompounds. It is based on the principle that the solubility of a compound in a solvent increases with temperature, allowing impurities to be removed while the desired compound remains in solution at higher temperatures and then recrystallizes as the solution cools down.
Steps of Recrystallization:
Solvent Selection: Choose a solvent in which the compound to be purified has low solubility at low temperatures, but high solubility at high temperatures. The impurities should be either insoluble or very soluble in the chosen solvent.
Dissolving the Compound: Dissolve the crude compound in the minimum amount of hot solvent. This ensures that the compound is completely dissolved at an elevated temperature.
Impurity Removal: If there are insoluble impurities, they can be removed by hot filtration or through the use of gravityfiltration while the solution is still hot.
Recrystallization: Allow the solution to cool slowly, prompting the compound to recrystallize. The slower the cooling, the larger and purer the crystals will be.
Isolation of Crystals: The purified crystals are isolated by vacuum filtration, washed with a cold solvent to remove any remaining impurities, and then dried to yield the pure compound.
Recrystallization is a widely used method for purifying organic compounds in the laboratory due to its simplicity, effectiveness, and ability to yield high-purityproducts.
When studying recrystallization, it is important to understand the principles, steps, and factors affecting the process. Practice identifying suitable solvents for different compounds and understanding the mechanisms behind the purification technique. Additionally, familiarize yourself with the techniques for isolating and drying the purified crystals.
Use mathematics and computational thinking to express the concentrations of solutions quantitatively using molarity.
Use the concept of pH as a model to predict the relative properties of strong, weak, concentrated, and dilute acids and bases (e.g., Arrhenius and Brønsted-Lowry acids and bases).