Question

Identify the correct increasing order of crystal field stabilization energy value for the given complexes.

• A. $ \left[Ir\left(NH_{3}\right)_{6}\right]^{3+} < \left[Rh\left(NH_{3}\right)_{6}\right]^{3+} < \left[Co\left(NH_{3}\right)_{6}\right]^{3+} $
• B. $ \left[Rh\left(NH_{3}\right)_{6}\right]^{3+} < \left[Co\left(NH_{3}\right)_{6}\right]^{3+} < \left[Ir\left(NH_{3}\right)_{6}\right]^{3+} $
• C. $ \left[Co\left(NH_{3}\right)_{6}\right]^{3+} < \left[Ir\left(NH_{3}\right)_{6}\right]^{3+} < \left[Rh\left(NH_{3}\right)_{6}\right]^{3+} $
• D. $ \left[Co\left(NH_{3}\right)_{6}\right]^{3+} < \left[Rh\left(NH_{3}\right)_{6}\right]^{3+}< \left[Ir\left(NH_{3}\right)_{6}\right]^{3+} $

Answer 1

The Correct Option is D

The elements in the $2^{nd}$ and $3^{rd}$ transition series (the $4d$ and $5d$ elements) have large splitting than those in $3d$ series. So, the order of $CFSE$ is
$[Co(NH_{3})_{6}]^{3+} < \, [Rh(NH_{3})_{6}]^{3+} < \, [Ir(NH_{3})_{6}]^{3+}$