Lewis Dot Structures Outline –Lewis Dot Structure Basics –Resonance –Those annoying...
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Transcript of Lewis Dot Structures Outline –Lewis Dot Structure Basics –Resonance –Those annoying...
![Page 1: Lewis Dot Structures Outline –Lewis Dot Structure Basics –Resonance –Those annoying exceptions.](https://reader035.fdocuments.net/reader035/viewer/2022062308/56649dab5503460f94a99d21/html5/thumbnails/1.jpg)
Lewis Dot Structures
Outline– Lewis Dot Structure Basics– Resonance– Those annoying exceptions
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Localized Bond Models• Consider our energy diagram for H2 bonding:
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Localized Model Limitations
• It is important to keep in mind that the models we are discussing are just that…..models.
• We are operating under the assumption that when forming bonds, atoms “share” electrons using atomic orbitals.
• Electrons involved in bonding: “bonding pairs”.
Electrons not involved in bonding: “lone pairs”.
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Lewis Dot Structures (cont.)• Developed by G. N. Lewis to serve as a way
to describe bonding in polyatomic systems.
• Central idea: the most stable arrangement of electrons is one in which all atoms have a “noble” gas configuration.
• Example: NaCl versus Na+Cl-
Na: [Ne]3s1 Cl: [Ne]3s23p5
Na+: [Ne] Cl-: [Ne]3s23p6 = [Ar]
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LDS Mechanics
• Atoms are represented by atomic symbols surrounded by valence electrons.
F C
• Electron pairs between atoms indicate bond formation.
F F
Bonding Pair
Lone Pair (6 x)
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LDS Mechanics (cont.)• Three steps for “basic” Lewis structures:
1. Sum the valence electrons for all atoms to determinetotal number of electrons.
2. Use pairs of electrons to form a bond between each pair of atoms (bonding pairs).
3. Arrange remaining electrons around atoms (lone pairs)to satisfy the “octet rule” (“duet” rule for hydrogen).
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LDS Mechanics (cont.)• An example: Cl2O
20 e-O Cl Cl
OCl Cl 16 e- left
OCl Cl
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LDS Mechanics (cont.)• An example: CH4
8 e-
0 e- left
H CH HH
H C
H
H
H
Done!
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LDS Mechanics (cont.)• An example: CO2
16 e-
12 e- left
O CO
OCO
OCO 0 e- leftOctet Violation
OCOCO double bond
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LDS Mechanics (cont.)• An example: NO+
10 e-ON+
ON+
ON 8 e- left
ON+
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Resonance Structures
• We have assumed up to this point that there is one correct Lewis structure.
• There are systems for which more than one Lewis structure is possible:– Different atomic linkages: Structural Isomers– Same atomic linkages, different bonding: Resonance
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Resonance Structures (cont.)• The classic example: O3.
O O O
O O O
O O O
Both structures are correct!
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Resonance Structures (cont.)• In this example, O3 has two resonance structures:
O O O
• Conceptually, we think of the bonding being an average of these two structures.
• Electrons are delocalized between the oxygens such that on average the bond strength is equivalent to 1.5 O-O bonds.
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Structural Isomers• What if different sets of atomic linkages can be
used to construct correct LDSs:
OCl Cl ClCl O
OCl Cl ClCl O
• Both are correct, but which is “more” correct?
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Formal Charge• Formal Charge: Compare the nuclear charge (+Z) to the number
of electrons (dividing bonding electron pairs by 2). Difference is known as the “formal charge”.
OCl Cl ClCl O
#e- 7 6 7 7 6 7Z+ 7 6 7 7 7 6
Formal C. 0 0 0 0 +1 -1
• Structure with less F. C. is more correct.
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Formal Charge• Example: CO2
OCO O O C O O C
e- 6 4 6 6 4 6 7 4 5
Z+ 6 4 6 6 6 4 6 6 4
FC 0 0 0 0 +2 -2 -1 +2 -1
More Correct
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Beyond the Octet Rule
• There are numerous exceptions to the octet rule.
• We’ll deal with three classes of violation here:
– Sub-octet systems– Valence shell expansion– Odd-electron systems
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Beyond the Octet Rule (cont.)• Some atoms (Be and B in particular) undergo bonding, but will form stable
molecules that do not fulfill the octet rule.
FBF
F
FBF
F
• Experiments demonstrate that the B-F bond strength is consistent with single bonds only.
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Beyond the Octet Rule (cont.)• For third-row elements (“Period 3”), the energetic proximity of the d
orbitals allows for the participation of these orbitals in bonding.
• When this occurs, more than 8 electrons can surround a third-row element.
• Example: ClF3 (a 28 e- system)
FClF
F F obey octet rule
Cl has 10e-
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Beyond the Octet Rule (cont.)• Finally, one can encounter odd electron systems where full pairs will not
exist.
ClO O
• Example: Chlorine Dioxide.
Unpaired electron
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Summary• Remember the following:
– C, N, O, and F almost always obey the octet rule.– B and Be are often sub-octet– Second row (Period 2) elements never exceed the octet rule– Third Row elements and beyond can use valence shell expansion to exceed the octet rule.
• In the end, you have to practice…..a lot!