Fundamentals of Liquid-Liquid Extractions

Dr. Frank's Lab Bench

6 Sept 202017:03

Summary

TLDRDr. Frank's video delves into liquid-liquid extraction, a purification technique pivotal in organic synthesis. It hinges on solubility differences and immiscibility of solvents, typically employing water and an organic solvent. The video elucidates the 'like dissolves like' principle, emphasizing polar and non-polar solubility preferences. It also introduces reactive extractions, leveraging acid-base chemistry and pKa values to selectively extract organic compounds into aqueous phases. Practical tips on using separatory funnels and the impact of pH on extraction efficiency are provided, concluding with a strategy for separating a mixture of benzoic acid, naphthalene, and aniline.

Takeaways

🌟 Liquid-liquid extraction is a purification technique used in organic synthesis, relying on the differing solubilities of compounds in immiscible solvents.
💧 The principle of 'like dissolves like' is crucial; polar solvents dissolve polar molecules better, and non-polar solvents dissolve non-polar molecules better.
🔬 Water is often used in liquid-liquid extraction due to its immiscibility with many organic solvents and its high polarity.
🧪 A separatory funnel is a common piece of lab equipment used to perform liquid-liquid extractions by physically separating immiscible solvent layers.
⏏️ The order of solvent layers (organic on top or bottom) depends on their densities, with water typically being the denser layer.
📚 Reactive extractions involve using acid-base chemistry to ionize organic molecules, making them soluble in the aqueous phase for separation.
🔄 The acid dissociation constant (pKa) is essential for planning reactive extractions, as it indicates the strength of an acid and its tendency to ionize.
🔄 The Henderson-Hasselbalch equation relates the pH of a solution to the pKa of an acid, helping predict the partitioning of acid and its conjugate base.
⚖️ Performing multiple extractions with small volumes of solvent is more efficient than a single extraction with a large volume for accumulating the product in its preferred phase.
🧪 In a mixture of benzoic acid, naphthalene, and aniline, each compound can be selectively separated based on its pKa and the pH of the extraction solution.

Q & A

What is liquid-liquid extraction?
-Liquid-liquid extraction is a purification technique used in organic synthesis, based on the differing solubilities of compounds in immiscible solvents, allowing for the separation of a mixture into distinct layers that can be physically separated.
Why are most organic solvents not suitable for liquid-liquid extraction?
-Most organic solvents are miscible with each other, meaning they mix together and do not form separate layers, which is necessary for effective liquid-liquid extraction.
What is the role of water in liquid-liquid extraction?
-Water is often used in liquid-liquid extraction because it is immiscible with many organic solvents and has a high polarity, allowing it to dissolve polar impurities and ionic compounds effectively.
How does the separatory funnel facilitate liquid-liquid extraction?
-The separatory funnel is a piece of glassware used to mix immiscible solvents, allowing them to separate into distinct layers. It has a valve at the bottom that enables the separate collection of each layer.
What determines whether the organic layer is on top or bottom in a liquid-liquid extraction?
-The density of the solvents determines the layering in liquid-liquid extraction. Water, with a density of one gram per milliliter, is typically on the bottom, while less dense organic solvents float on top.
How does the 'like dissolves like' rule apply to solubility in liquid-liquid extraction?
-The 'like dissolves like' rule suggests that polar solvents dissolve polar molecules better, and non-polar solvents dissolve non-polar molecules better. This principle is used to predict which solvent will preferentially dissolve a given compound.
Why is it more effective to perform multiple extractions with small volumes rather than a single extraction with a large volume?
-Multiple extractions with small volumes allow for the product to accumulate in its preferred phase over time, leading to a higher concentration and more efficient purification compared to a single large volume extraction.
What is reactive extraction and how does it differ from standard liquid-liquid extraction?
-Reactive extraction is a process where an organic compound is selectively ionized to become water-soluble, allowing it to be separated from other compounds in the organic phase. This differs from standard extraction, which relies solely on the physical properties of the compounds.
How is the acid dissociation constant (pKa) used in planning reactive extractions?
-The pKa value is used to predict the partitioning of a weak acid between its neutral and anionic forms based on the pH of the solution. This information is crucial for determining the conditions under which a compound will be soluble in either the organic or aqueous phase.
What is the Henderson-Hasselbalch equation and how does it relate to liquid-liquid extraction?
-The Henderson-Hasselbalch equation is used to predict the ratio of a compound in its ionized form to its neutral form based on the pH of the solution and the compound's pKa. It is used in liquid-liquid extraction to determine the optimal pH for selectively extracting a compound into one phase.
How can the compounds separated by liquid-liquid extraction be recovered in their original form?
-After extraction, compounds like anilinium chloride or sodium benzoate can be converted back to their neutral forms by adding an excess of acid or base, respectively. The neutral compounds can then be extracted into an organic solvent or precipitated out of the aqueous solution.