Chiral complex from the following is:
- A
cis–[PtCl(en)]
- B
trans–[PtCl(en)]
- C
cis–[PtCl()]
- D
trans–[Co()Cl]
Chiral complex from the following is:
cis–[PtCl(en)]
trans–[PtCl(en)]
cis–[PtCl()]
trans–[Co()Cl]
Correct answer:A
Standard Method
Given: Four coordination complexes are to be checked for chirality.
Find: Which complex is chiral.
Chirality in coordination complexes occurs when the complex lacks a plane of symmetry or centre of symmetry.
For the given complexes:
Therefore, the chiral complex is cis–[PtCl(en)]. Hence, the correct option is A.
Symmetry-Based Identification
Given: The complexes differ by cis/trans arrangement and ligand type.
Find: The complex without symmetry elements responsible for achirality.
Use the rule:
Applying this:
So only cis–[PtCl(en)] is chiral.
Assuming every cis complex is chiral. This is wrong because chirality depends on absence of symmetry elements, not only on cis/trans notation. Always check for a plane of symmetry or centre of symmetry.
Ignoring the effect of the bidentate ligand en. This is wrong because bidentate ligands can create a twisted arrangement that leads to chirality in cis complexes. Examine ligand denticity before deciding.
Treating trans complexes as potentially chiral without checking symmetry. In these examples, the trans arrangement introduces symmetry and makes the complexes achiral. Verify the geometry before concluding.
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