Chemistry Is Everywhere: Actual Yields in Drug Synthesis and Purification |
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date: 3-11-2020
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Date: 30-10-2020
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Many drugs are the product of several steps of chemical synthesis. Each step typically occurs with less than 100% yield, so the overall percent yield might be very small. The general rule is that the overall percent yield is the product of the percent yields of the individual synthesis steps. For a drug synthesis that has many steps, the overall percent yield can be very tiny, which is one factor in the huge cost of some drugs. For example, if a 10-step synthesis has a percent yield of 90% for each step, the overall yield for the entire synthesis is only 35%. Many scientists work every day trying to improve percent yields of the steps in the synthesis to decrease costs, improve profits, and minimize waste.
Even purifications of complex molecules into drug-quality purity are subject to percent yields. Consider the purification of impure albuterol. Albuterol (C13H21NO2; accompanying figure) is an inhaled drug used to treat asthma, bronchitis, and other obstructive pulmonary diseases. It is synthesized from norepinephrine, a naturally occurring hormone and neurotransmitter. Its initial synthesis makes very impure albuterol that is purified in five chemical steps. The details of the steps do not concern us; only the percent yields do:
impure albuterol → intermediate A | percent yield = 70% |
intermediate A → intermediate B | percent yield = 100% |
intermediate B → intermediate C | percent yield = 40% |
intermediate C → intermediate D | percent yield = 72% |
intermediate D → purified albuterol | percent yield = 35% |
overall percent yield = 70% × 100% × 40% × 72% × 35% = 7.5% |
That is, only about one-fourteenth of the original material was turned into the purified drug. This gives you one reason why some drugs are so expensive; a lot of material is lost in making a high-purity pharmaceutical.
What is the difference between the theoretical yield and the actual yield?
What is the difference between the actual yield and the percent yield?
A worker isolates 2.675 g of SiF4 after reacting 2.339 g of SiO2 with HF. What are the theoretical yield and the actual yield?
SiO2(s) + 4 HF(g) → SiF4(g) + 2 H2O(ℓ)
A worker synthesizes aspirin, C9H8O4, according to this chemical equation. If 12.66 g of C7H6O3 are reacted and 12.03 g of aspirin are isolated, what are the theoretical yield and the actual yield?
C7H6O3 + C4H6O3 → C9H8O4 + HC2H3O2
A chemist decomposes 1.006 g of NaHCO3 and obtains 0.0334 g of Na2CO3. What are the theoretical yield and the actual yield?
2 NaHCO3(s) → Na2CO3(s) + H2O(ℓ) + CO2(g)
A chemist combusts a 3.009 g sample of C5H12 and obtains 3.774 g of H2O. What are the theoretical yield and the actual yield?
C5H12(ℓ) + 8 O2(g) → 5 CO2 + 6 H2O(ℓ)
What is the percent yield in Exercise 3?
What is the percent yield in Exercise 4?
What is the percent yield in Exercise 5?
What is the percent yield in Exercise 6?
Answers
1.
Theoretical yield is what you expect stoichiometrically from a chemical reaction; actual yield is what you actually get from a chemical reaction.
3.
theoretical yield = 4.052 g; actual yield = 2.675 g
5.
theoretical yield = 0.635 g; actual yield = 0.0334 g
7.
66.02%
9.
5.26%
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