MCQEasyJEE 2025Isomerism in Coordination Compounds

JEE Chemistry 2025 Question with Solution

The complex that shows Facial - Meridional isomerism is:

  • A

    [Co(NH3)3Cl3][Co(NH_3)_3Cl_3]

  • B

    [Co(NH3)4Cl2]+[Co(NH_3)_4Cl_2]^+

  • C

    [Co(en)3]3+[Co(en)_3]^{3+}

  • D

    [Co(en)2Cl2]+[Co(en)_2Cl_2]^+

Answer

Correct answer:A

Step-by-step solution

Standard Method

Given: The complexes are [Co(NH3)3Cl3][Co(NH_3)_3Cl_3], [Co(NH3)4Cl2]+[Co(NH_3)_4Cl_2]^+, [Co(en)3]3+[Co(en)_3]^{3+} and [Co(en)2Cl2]+[Co(en)_2Cl_2]^+.

Find: Which complex shows facial-meridional isomerism.

Facial (fac) and meridional (mer) isomers are geometric isomers found in octahedral complexes of the general formula [MA3B3][MA_3B_3].

In such complexes, three identical ligands can be arranged in two ways:

  1. Facial: the three identical ligands occupy adjacent positions and form one face of the octahedron.
  2. Meridional: the three identical ligands lie in a plane along a meridian of the octahedron.

Now examine the options:

  • [Co(NH3)3Cl3][Co(NH_3)_3Cl_3] has the form [MA3B3][MA_3B_3], so it can show fac-mer isomerism.
  • [Co(NH3)4Cl2]+[Co(NH_3)_4Cl_2]^+ has the form [MA4B2][MA_4B_2], which shows cis-trans isomerism, not fac-mer isomerism.
  • [Co(en)3]3+[Co(en)_3]^{3+} contains three bidentate ligands, so fac-mer isomerism does not arise.
  • [Co(en)2Cl2]+[Co(en)_2Cl_2]^+ has two chloride ligands and two bidentate ligands, so it does not satisfy the [MA3B3][MA_3B_3] requirement.

Therefore, the correct complex exhibiting facial-meridional isomerism is [Co(NH3)3Cl3][Co(NH_3)_3Cl_3].

The correct option is A.

Why the Other Options Fail

Given: Facial-meridional isomerism occurs in octahedral complexes when three identical ligands can occupy either one face or one meridian.

Find: Which listed complex satisfies this condition.

For fac-mer isomerism, the key structural requirement is an octahedral complex of type [MA3B3][MA_3B_3].

  • In [Co(NH3)3Cl3][Co(NH_3)_3Cl_3], there are three identical NH3NH_3 ligands and three identical ClCl^- ligands. Hence both fac and mer arrangements are possible.
  • In [Co(NH3)4Cl2]+[Co(NH_3)_4Cl_2]^+, only two chloride ligands are present, so fac-mer arrangement is not possible.
  • In [Co(en)3]3+[Co(en)_3]^{3+}, the ligand enen is bidentate and the complex is homoleptic; this does not generate fac-mer isomerism.
  • In [Co(en)2Cl2]+[Co(en)_2Cl_2]^+, there are only two chloride ligands and two bidentate ligands, so the required three identical monodentate ligands are absent.

Hence only [Co(NH3)3Cl3][Co(NH_3)_3Cl_3] shows facial-meridional isomerism.

The correct option is A.

Common mistakes

  • Assuming every octahedral complex shows facial-meridional isomerism. This is wrong because fac-mer isomerism specifically requires a ligand arrangement like [MA3B3][MA_3B_3]. First check whether three identical ligands of one type and three of another type are present.

  • Confusing fac-mer isomerism with cis-trans isomerism. Complexes such as [MA4B2][MA_4B_2] commonly show cis-trans isomerism, not fac-mer isomerism. Identify the formula type before choosing the isomerism.

  • Ignoring the effect of bidentate ligands such as enen. This is wrong because bidentate ligands occupy two coordination positions together and do not behave like three separate identical monodentate ligands needed for fac-mer isomerism. Check ligand denticity carefully.

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