The given zirconocene compound, (η5-Cp)2ZrEt2, when heated in the presence of an equimolar amount of PMe3 results in the formation of a compound X which obeys the 18-electron rule. The reaction also resulted in the release of a saturated hydrocarbon.
[Given: Atomic number of Zr = 40]
The structure of compound X is:
The given zirconocene compound, (η5-Cp)2ZrEt2, when heated in the presence of an equimolar amount of PMe3 results in the formation of a compound X which obeys the 18-electron rule. The reaction also resulted in the release of a saturated hydrocarbon.
[Given: Atomic number of Zr = 40]
The structure of compound X is:
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The Correct Option is C
Solution and Explanation
The compound given is a dialkyl zirconocene: (\(η5−Cp)2ZrEt2. Upon heating in the presence of PMe3, one of the alkyl groups undergoes beta-hydride elimination, leading to the loss of ethane (C2H6), a saturated hydrocarbon.
This results in the formation of a Zr–alkene complex with PMe3 coordinated to the Zr center. The product should satisfy the 18-electron rule, so we count:
- Zr contributes 4 d-electrons.
- Each Cp ligand contributes 5 electrons: \(2 \times 5 = 10\)
- Alkene donates 2 electrons.
- PMe3 donates 2 electrons.
Total: \(4 + 10 + 2 + 2 = 18\) electrons. Thus, structure (C) is consistent with the electron count and the product formed from beta-hydride elimination.
Other options:
- (A) Involves formation of a metallacycle, which is inconsistent with beta-hydride elimination and the 18-electron rule.
- (B) and (D) do not provide the correct oxidation state or ligand environment to satisfy 18 electrons.
\[ \boxed{\text{Correct structure of X is (C)}} \]
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