To determine the products X and Y in the given reaction sequence, we need to analyze the chemical reactions step-by-step.
Step 1: Formation of Compound X
The initial reaction involves \(BCl_3\) with \(NH_4Cl\) in \(C_6H_5Cl\) at \(150^\circ C\). This setup typically leads to the formation of a chlorinated borazine compound.
Borazine-like structures form when boron (B) combines with nitrogen (N) in a ring, similar to benzene but with alternating B and N atoms.
This reaction sequence leads to the formation of trichloroborazine: \(B_3N_3H_3Cl_3\), as chlorine replaces hydrogen in the initial ammonia-borane structure.
Step 2: Reduction to Form Compound Y
The next step involves treating the product with \(NaBH_4\), a reducing agent.
\(NaBH_4\) reduces \(B_3N_3H_3Cl_3\) to borazine (\(B_3N_3H_6\)).
The chlorine atoms are replaced by hydrogen, resulting in the fully hydrogenated form of borazine.
Conclusion
The products X and Y in this reaction sequence are:
X: \(B_3N_3H_3Cl_3\)
Y: \(B_3N_3H_6\)
Therefore, the correct answer is: B3N3H3Cl3 and B3N3H6.
