XeF3+ has one xenon atom and three fluorine atoms.
In the Lewis structure of XeF3+, there are three single bonds around the xenon atom, with three fluorine atoms attached to it. Each fluorine atom has three lone pairs, and the xenon atom has two lone pairs.
Also, there is a positive (+1) charge on the xenon atom.
Alternative method: XeF3+ Lewis structure
Rough sketch
- First, determine the total number of valence electrons
In the periodic table, xenon lies in group 18, and fluorine lies in group 17.
Hence, xenon has eight valence electrons and fluorine has seven valence electrons.
Since XeF3+ has one xenon atom and three fluorine atoms, so…
Valence electrons of one xenon atom = 8 × 1 = 8
Valence electrons of three fluorine atoms = 7 × 3 = 21
Now the XeF3+ has a positive (+1) charge, so we have to subtract one electron.
So the total valence electrons = 8 + 21 – 1 = 28
Learn how to find: Fluorine valence electrons
- Second, find the total electron pairs
We have a total of 28 valence electrons. And when we divide this value by two, we get the value of total electron pairs.
Total electron pairs = total valence electrons ÷ 2
So the total electron pairs = 28 ÷ 2 = 14
- Third, determine the central atom
We have to place the least electronegative atom at the center.
Since xenon is less electronegative than fluorine, assume that the central atom is xenon.
Therefore, place xenon in the center and fluorines on either side.
- And finally, draw the rough sketch
Lone pair
Here, we have a total of 14 electron pairs. And three Xe — F bonds are already marked. So we have to only mark the remaining eleven electron pairs as lone pairs on the sketch.
Also remember that xenon is a period 5 element, so it can keep more than 8 electrons in its last shell. And fluorine is a period 2 element, so it can not keep more than 8 electrons in its last shell.
Always start to mark the lone pairs from outside atoms. Here, the outside atoms are fluorines.
So for each fluorine, there are three lone pairs, and for xenon, there are two lone pairs.
Mark the lone pairs on the sketch as follows:
Formal charge
Use the following formula to calculate the formal charges on atoms:
Formal charge = valence electrons – nonbonding electrons – ½ bonding electrons
For xenon atom, formal charge = 8 – 4 – ½ (6) = +1
For each fluorine atom, formal charge = 7 – 6 – ½ (2) = 0
Here, the xenon atom has a charge, so mark it on the sketch as follows:
Final structure
The final structure of XeF3+ consists of a central xenon atom connected to three fluorine atoms through single covalent bonds. Within this configuration, the xenon atom utilizes an expanded valence shell to accommodate ten electrons, which include three bonding pairs and two lone pairs. Each fluorine atom reaches its octet by maintaining three lone pairs alongside its single shared bond. This layout is the most stable because it results in a +1 formal charge on the xenon atom, while all fluorine atoms retain a formal charge of zero, matching the overall charge of the ion. Consequently, this specific electronic distribution serves as the definitive and most accurate Lewis representation of XeF3+.
To properly represent this as a polyatomic ion, the entire Lewis structure is enclosed within square brackets. The overall charge of 1+ is then written as a superscript outside the brackets at the top right, indicating the loss of one electron from the total valence count of the neutral atoms.
Next: XeF3– Lewis structure
External video
- How to Draw the Lewis Structure for XeF3 + – YouTube • Wayne Breslyn
Deep
Learnool.com was founded by Deep Rana, who is a mechanical engineer by profession and a blogger by passion. He has a good conceptual knowledge on different educational topics and he provides the same on this website. He loves to learn something new everyday and believes that the best utilization of free time is developing a new skill.