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Reduction of Alkynes

Alkynes are reduced to alkanes by addition of H2 over a metal catalyst. The reaction occurs in two steps through an alkene intermediate, and measurements show that the first step in the reaction is more exothermic than the second.

Reduction of Alkynes | Chemistry Optional Notes for UPSC

Complete reduction to the alkane occurs when palladium on carbon (Pd/C) is used as catalyst, but hydrogenation can be stopped at the alkene stage if the less active Lindlar catalyst is used. The Lindlar catalyst is a finely divided palladium metal that has been precipitated onto a calcium carbonate support and then deactivated by treatment with lead acetate and quinoline, an aromatic amine. The hydrogenation occurs with syn stereochemistry, giving a cis alkene product.
Reduction of Alkynes | Chemistry Optional Notes for UPSC

The alkyne hydrogenation reaction has been explored extensively by the Hoffmann–LaRoche pharmaceutical company, where it is used in the commercial synthesis of vitamin A. The cis isomer of vitamin A produced initially on hydrogenation is converted to the trans isomer by heating.
Reduction of Alkynes | Chemistry Optional Notes for UPSC

Question for Reduction of Alkynes
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Which catalyst is used to stop the hydrogenation of alkynes at the alkene stage?
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An alternative method for the conversion of an alkyne to an alkene uses sodium or lithium metal as the reducing agent in liquid ammonia as solvent. This method is complementary to the Lindlar reduction because it produces trans rather than cis alkenes. For example, 5-decyne gives trans-5-decene on treatment with lithium in liquid ammonia. The mechanism is explained below.
Reduction of Alkynes | Chemistry Optional Notes for UPSC

Alkali metals dissolve in liquid ammonia at −33 °C to produce a deep blue solution containing the metal cation and ammonia-solvated electrons. When an alkyne is then added to the solution, reduction occurs by the mechanism shown in Figure 9.5. An electron first adds to the triple bond to yield an intermediate anion radical—a species that is both an anion (has a negative charge) and a radical (has an odd number of electrons). This anion radical is a strong base, able to remove H+ from ammonia to give a vinylic radical. Addition of a second electron to the vinylic radical gives a vinylic anion, which abstracts a second H+ from ammonia to give trans alkene product.

Figure 9.5 MECHANISM Mechanism of the lithium/ammonia reduction of an alkyne to produce a trans alkene.
Reduction of Alkynes | Chemistry Optional Notes for UPSC

Trans stereochemistry of the alkene product is established during the second reduction step (3) when the less-hindered trans vinylic anion is formed from the vinylic radical. Vinylic radicals undergo rapid cis–trans equilibration, but vinylic anions equilibrate much less rapidly. Thus, the more stable trans vinylic anion is formed rather than the less stable cis anion and is then protonated without equilibration.

Question for Reduction of Alkynes
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Which reducing agent in liquid ammonia can be used to convert an alkyne to an alkene and produce trans alkenes?
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The document Reduction of Alkynes | Chemistry Optional Notes for UPSC is a part of the UPSC Course Chemistry Optional Notes for UPSC.
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FAQs on Reduction of Alkynes - Chemistry Optional Notes for UPSC

1. What is the reduction of alkynes?
Ans. The reduction of alkynes is a chemical reaction in which alkynes, which are hydrocarbons with triple bonds, are converted into alkanes, which are hydrocarbons with only single bonds. This reduction reaction involves breaking the triple bond and adding hydrogen atoms to the carbon atoms, resulting in the formation of a saturated compound.
2. What is the purpose of reducing alkynes?
Ans. The reduction of alkynes serves various purposes in organic chemistry. It is commonly used to convert alkynes into alkanes, which have different chemical properties. This transformation allows for the synthesis of different compounds with desired properties. Additionally, alkynes can be reduced to alkenes, which are valuable intermediates in various chemical reactions.
3. What are the common reducing agents used for the reduction of alkynes?
Ans. There are several common reducing agents used for the reduction of alkynes. One commonly used reagent is hydrogen gas (H2) in the presence of a catalyst such as palladium (Pd), platinum (Pt), or nickel (Ni). Another frequently used reducing agent is sodium in liquid ammonia (Na/NH3). These reducing agents facilitate the addition of hydrogen atoms to the carbon-carbon triple bond.
4. Are there any limitations or challenges in the reduction of alkynes?
Ans. Yes, there are some limitations and challenges in the reduction of alkynes. One limitation is the possibility of over-reduction, which can lead to the formation of alkanes instead of the desired alkenes. Another challenge is the selectivity of the reduction reaction, as multiple reduction products can be formed depending on the reaction conditions. Additionally, the reduction of certain alkynes may require specific reaction conditions or more specialized reducing agents.
5. Can the reduction of alkynes be used for the synthesis of complex organic molecules?
Ans. Yes, the reduction of alkynes can be a valuable tool for the synthesis of complex organic molecules. By selectively reducing specific triple bonds, chemists can introduce desired functional groups and create intricate carbon frameworks. The reduction of alkynes can be a key step in the synthesis of natural products, pharmaceuticals, and other important organic compounds.
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