Write the Lewis structure for ICl4- and identify its shape and hybridization scheme

Write the Lewis structure for ICl4- and identify its shape and hybridization scheme

The Correct Answer and Explanation is:

To draw the Lewis structure for ICl₄⁻ and determine its shape and hybridization, let’s follow these steps:

Step 1: Count the Total Valence Electrons

• Iodine (I) is in Group 17 and has 7 valence electrons.
• Chlorine (Cl) is also in Group 17 and each Cl atom contributes 7 valence electrons.
• The negative charge (⁻) indicates an extra electron.

Thus, the total number of valence electrons:
7 (from I)+4×7 (from Cl)+1 (extra from the negative charge)=36 valence electrons7 \, (\text{from I}) + 4 \times 7 \, (\text{from Cl}) + 1 \, (\text{extra from the negative charge}) = 36 \, \text{valence electrons}7(from I)+4×7(from Cl)+1(extra from the negative charge)=36valence electrons

Step 2: Draw the Skeleton Structure

• Iodine (I) will be the central atom because it is less electronegative than chlorine (Cl).
• The four chlorine (Cl) atoms will be arranged around iodine.

Step 3: Distribute Electrons

• Place single bonds between iodine and each chlorine atom. Each bond uses 2 electrons, and 4 bonds will use 8 electrons, leaving us with:
  36−8=28 electrons left36 – 8 = 28 \, \text{electrons left}36−8=28electrons left
• Now, complete the octets for each chlorine atom by adding three lone pairs around each chlorine. This uses 24 electrons:
  28−24=4 electrons left28 – 24 = 4 \, \text{electrons left}28−24=4electrons left
• Place the remaining 4 electrons as a lone pair on the iodine atom.

Step 4: Check the Structure

• Each chlorine atom has 8 electrons around it (6 from lone pairs and 2 from the bonding pair), which satisfies the octet rule.
• Iodine has 8 electrons from the bonds and 2 from the lone pair, so it satisfies its expanded octet (Iodine can have more than 8 electrons in its valence shell because it’s in period 5).

Thus, the Lewis structure for ICl₄⁻ is:

lessCopyEdit      Cl
      |
Cl - I - Cl
      |
      Cl

With a lone pair on iodine.

Step 5: Determine the Shape and Hybridization

• Shape: The molecule has 5 regions of electron density (4 single bonds and 1 lone pair). This gives a trigonal bipyramidal geometry.
• Lone Pair Effect: The lone pair occupies an equatorial position to minimize electron repulsion, leading to a seesaw shape.
• Hybridization: Since there are 5 regions of electron density, the hybridization is sp³d.

Conclusion:

• The Lewis structure of ICl₄⁻ shows iodine at the center bonded to four chlorine atoms with a lone pair on iodine.
• The shape of the molecule is seesaw.
• The hybridization scheme is sp³d.