e5 lewis acids and bases - university of michigan
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E5 Lewis Acids and BasesE5 Lewis Acids and Bases
Session oneSession onePre-lab (p.141) due at start of lab.Pre-lab (p.141) due at start of lab.First hour: Discussion of E4First hour: Discussion of E4Lab: Parts 1andLab: Parts 1and 2A2A
Session twoLab: Parts 2B, 3 and 4
AcidsAcids
Bronsted: Acids are proton donors and generatehydronium ions in aqueous solution.
DEMO
Problem• Cations other than H+ are acids that generatehydronium ions in aqueous solution!
AcidsAcids
Demo example: Al3+ in aqueous solution = ≈ pH 3!
Deodorants and acid loving plant foods contain aluminum salts
Cations other than H+ generate hydroniumions in aqueous solution!
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Lewis Definition of Acids and BasesLewis Definition of Acids and Bases
A BASE DONATES unbonded ELECTRON PAIR/S. An ACID ACCEPTS ELECTRON PAIR/S .
Acid Base Base Acid
HCl-H + ••O
• • H
Cl- H H +
• O
• H
Define acid/base without using the word proton:
Lewis AcidsLewis Acids
Electron deficient species ; potential electronpair acceptors.
Examples: H+ Cu2+ Al3+
“I’m deficient!”
Acid
Lewis BasesLewis Bases
Electron rich species; electron pair donors.
(ammine) (hydroxo) (aquo)Ammonia hydroxide ion water__
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Lewis Acid-Base ReactionsLewis Acid-Base Reactions
The acid reacts with the base by bonding to one ormore available electron pairs on the base.
Acid + Base Complex ion
H H+ + ••O
• • H
H H +
• O
• H
Example
The acid-base bond is a coordinate covalent bond. The product is a complex or complex ion
Lewis Acid-Base ReactionsLewis Acid-Base Reactions
Metal ions react with/bond to water molecules toform aquo complex ions in aqueous solution.
• Example: [Na(H2O)6]+
Aquo Complex IonsAquo Complex Ions
Example: CuSO4 (s) → Cu2+(aq) + SO4
2- (aq)
[Cu(H2O)4]2+
When a salt dissolves, the metal ions in solution reactwith/bond to water molecules to forms aquo complex ions.
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Aquo Complex IonsAquo Complex Ions
Examples
[Pb(H2O)4]2+
Tetra aquo lead ion[Ni(H2O)6]2+
Hexa aquo nickel ion
[Cu(H2O)4]2+
Tetra aquo copper(II)ion[H(H2O)]+
Hydronium ion
Colored aquo complex ions contain a transitionmetal ion with incompletely filled d orbitals.
Part 1. Acidity of CationsPart 1. Acidity of Cations
Collect pH data for different metal aquo complexions in aqueous solution.• pH versus periodic table position of ion’s metal?• pH versus metal ion size and charge? extent of s’
• Study the reaction of metal aquo complex ions withthe Lewis base H2O to produce hydronium ions.
Metal Ion Acid StrengthMetal Ion Acid Strength
The acid strength of a metal ion is dependent on itsability to attract electrons (oxidizing agent strength)
∝ + HMx+ O H
....∝ +
The water molecules bonded to metal ions in aquocomplex ions are polarized and the protons areelectron deficient. The greater the acid strength of a metal ion the morepolarized the bonded water molecules in the aquocomplex ion.
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Electron deficient proton/s in the polarized watermolecules of the metal aquo complex ion react andbond to an electron pair in another water molecule
Reactions of Metal Aquo Complex Ions with Water
Reaction of Metal Aquo Complex Ion:
[Al (H2O)6]3+ + H2O → [Al(H2O)5(OH)]2+ + [H-H2O]+
When a proton bonds to a water molecule, a H3O+
ion is formed.
Q. Complete a balanced equation to show formation of hydronium ions:Q. Complete a balanced equation to show formation of hydronium ions:
+ _____________________[Al(H2O)6]3+ + 2 HOH →
Metal Ion Acid StrengthMetal Ion Acid Strength
Q. Given the reducing agent strength Na > Mg > Al,indicate the Lewis acid strength of Na+, Mg2+, and Al3+
Metal Ion Acid Strength: ___________________
DEMO
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1A VIIIA1H1s1 IIA IIIA IVA VA VIA VIIA
2He1s2
3Li2s1
4Be2s2
5B
2s22p1
6C
2s22p2
7N
2s22p3
8O
2s22p4
9F
2s22p5
1 0Ne
2s22p6
1 1Na3s1
1 2Mg3s2 IIIB IVB VB VIB VIIB VIIIB ⇔ VIIIB IB IIB
1 3Al
3s23p1
1 4Si
3s23p2
1 5P
3s23p3
1 6S
3s23p4
1 7Cl
3s23p5
1 8Ar
3s23p6
1 9K4s1
2 0Ca4s2
2 1Sc
3d14s2
2 2Ti
3d24s2
2 3V
3d34s2
2 4Cr
3d54s1
2 5Mn
3d54s2
2 6Fe
3d64s2
2 7Co
3d74s2
2 8Ni
3d84s2
2 9Cu
3d1 04s1
3 0Zn
3d1 04s2
3 1Ga
4s24p1
3 2Ge
4s24p2
3 3As
4s24p3
3 4Se
4s24p4
3 5Br
4s24p5
3 6Kr
4s24p6
3 7Rb5s1
3 8Sr5s2
3 9Y
4d15s2
4 0Zr
4d25s2
4 1Nb
4d35s2
4 2Mo
4d55s1
4 3Tc
4d55s2
4 4Ru
4d75s1
4 5Rh
4d85s1
4 6Pd
4d10
4 7Ag
4d1 05s1
4 8Cd
4d1 05s2
4 9In
5s25p1
5 0Sn
5s25p2
5 1Sb
5s25p3
5 2Te
5s25p4
5 3I
5s25p5
5 4Xe
5s25p6
5 5Cs6s1
5 6Ba6s2
5 7La*
5d16s2
7 2Hf
5d26s2
7 3Ta
5d36s2
7 4W
5d46s2
7 5Re
5d56s2
7 6Os
5d66s2
7 7Ir
5d76s2
7 8Pt
5d96s1
7 9Au
5d1 06s1
8 0Hg
5d1 06s2
8 1Tl
6s26p1
8 2Pb
6s26p2
8 3Bi
6s26p3
8 4Po
6s26p4
8 5At
6s26p5
8 6Rn
6s26p6
8 7Fr7s1
8 8Ra7s2
8 9Ac#
6d17s2
1 0 4 +
6d27s2
1 0 5 +6d37s2
1 0 6 +6d47s2
1 0 7 +6d57s2
1 0 8 +6d67s2
1 0 9 +6d77s2
+ Element synthesized,but no official name assigned
Reducing agent strength: Na > Mg > AlAcid strength: _______________
Part 2 A.Studies of complex formation with NH3 and OH -.
Part 2 A.Studies of complex formation with NH3 and OH -.
• Study the reactions of metal aquo complex ions withLewis bases (NH3, OH-, …).
DISCUSSION• What kinds of observations allow you to infer that a
complexation reaction is occurring?• Can you predict the reactions of a metal ion based on the
position of its element in the Periodic Table?
1A VIIIA1H1s1 IIA IIIA IVA VA VIA VIIA
2He1s2
3Li2s1
4Be2s2
5B
2s22p1
6C
2s22p2
7N
2s22p3
8O
2s22p4
9F
2s22p5
1 0Ne
2s22p6
1 1Na3s1
1 2Mg3s2 IIIB IVB VB VIB VIIB VIIIB ⇔ VIIIB IB IIB
1 3Al
3s23p1
1 4Si
3s23p2
1 5P
3s23p3
1 6S
3s23p4
1 7Cl
3s23p5
1 8Ar
3s23p6
1 9K4s1
2 0Ca4s2
2 1Sc
3d14s2
2 2Ti
3d24s2
2 3V
3d34s2
2 4Cr
3d54s1
2 5Mn
3d54s2
2 6Fe
3d64s2
2 7Co
3d74s2
2 8Ni
3d84s2
2 9Cu
3d1 04s1
3 0Zn
3d1 04s2
3 1Ga
4s24p1
3 2Ge
4s24p2
3 3As
4s24p3
3 4Se
4s24p4
3 5Br
4s24p5
3 6Kr
4s24p6
3 7Rb5s1
3 8Sr5s2
3 9Y
4d15s2
4 0Zr
4d25s2
4 1Nb
4d35s2
4 2Mo
4d55s1
4 3Tc
4d55s2
4 4Ru
4d75s1
4 5Rh
4d85s1
4 6Pd
4d10
4 7Ag
4d1 05s1
4 8Cd
4d1 05s2
4 9In
5s25p1
5 0Sn
5s25p2
5 1Sb
5s25p3
5 2Te
5s25p4
5 3I
5s25p5
5 4Xe
5s25p6
5 5Cs6s1
5 6Ba6s2
5 7La*
5d16s2
7 2Hf
5d26s2
7 3Ta
5d36s2
7 4W
5d46s2
7 5Re
5d56s2
7 6Os
5d66s2
7 7Ir
5d76s2
7 8Pt
5d96s1
7 9Au
5d1 06s1
8 0Hg
5d1 06s2
8 1Tl
6s26p1
8 2Pb
6s26p2
8 3Bi
6s26p3
8 4Po
6s26p4
8 5At
6s26p5
8 6Rn
6s26p6
8 7Fr7s1
8 8Ra7s2
8 9Ac#
6d17s2
1 0 4 +
6d27s2
1 0 5 +6d37s2
1 0 6 +6d47s2
1 0 7 +6d57s2
1 0 8 +6d67s2
1 0 9 +6d77s2
+ Element synthesized,but no official name assigned
• Extent of reaction differs because of acid strength differences.
Reaction of Lewis Acids (metal ions) with Lewis Bases
•Pattern of reactivity with bases (e.g. OH- and NH3) differsdue to differences in metal ion electron configurations.
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If reaction occurs with a charged base such as OH-, theproduct may be a soluble complex ion or an unchargedinsoluble complex depending on reaction stoichiometry.
Aquo Complex Ion Reactions
Example 1: Formation of a soluble complex ion:
[Al (H2O)6]3+ + OH- → [Al(H2O)5(OH)]2+ + H2O
Aquo Complex Ion Reactions
Example 2: Formation of a insoluble complex:
[Al (H2O)6]3+ + 3OH- → [Al(H2O)3(OH)3] + 3H2O
Traditional net precipitation equation:Al 3+(aq) + 3OH- (aq) → Al(OH)3 (s)
Aquo Complex Ion Reactions
Example 3: Addition of more hydroxide ions to theprecipitated hydroxide complex results in formationof a soluble complex ion:
[Al (H2O)3(OH)3] + 3 OH- → [Al(OH)6]3- + 3 H2O
DEMO
8
[Al(H2O)6]3+
↓↑ [Al(H2O)5(OH)]2+
↓↑ [Al(H2O)4(OH)2] +
↓↑[Al(H2O)3(OH)3]
↓↑ [Al(H2O)2(OH)4]-
↓↑ [Al(H2O) (OH)5] 2-
↓↑ [Al(OH)6]3-
Add
ition
of B
ase
(NaO
H)
Precipitation reactions are Lewis Acid-Base reactions The reactions are reversible equilibrium systems The equilibrium point depends on the reactants (strength…)and reaction conditions (concentration…)
Add
ition
of a
cid
(H+)
• If a precipitate forms upon addition of NH3(aq), themetal aquo complex ion is reacting with the SMALLAMOUNT of OH- ions present in NH3(aq):
NH3(aq) + HOH(l) NH4+ (aq) + OH- (aq)
Reaction of Aquo Metal Complex Ions with NH3
[Cu(H2O)4]2+ + NH3 → light blue precipitate*
DEMO
Q. * What is the formula for the hydroxide precipitate?_________________________
Lewis acids bond to the best available base. - an acid does not react (bond) to any base.
+ Base → no reaction
“Wanna give me a try?”
Acid-Base
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If a better base is available a Lewis acid willreact (exchange partners)!
Acid-Base + better Base → Reaction
Q. The acid exchanging base partners is H+. Which is the BEST base, Cl- or HOH?Q. The acid exchanging base partners is H+. Which is the BEST base, Cl- or HOH?
Acid Base Base Acid
HCl-H + ••O
• • H
Cl- H H +
• O
• H
Answer: ______________________________
• The bonded base-acid product = complex ion.
Example 1: Replacement of water with ammonia molecules.
Aquo Complex Ion Reactions
[Cu (H2O)4]2+ + 4 NH3 → [Cu(NH3)4]2+ + 4 H2O
DEMO
Tetra aquo Cu(II) ion Tetra ammine Cu(II) ion
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Example: Replacement of water with ammonia molecules.
Aquo Complex Ion Reactions
[Cu(NH3)4]2+
Tetrammine copper (II) ion
Complex IonsComplex Ions
Complex ions are the chemical basis for colorful paintpigments.
Aquo Complex Ion ReactionsAquo Complex Ion Reactions
[Cu(NH3)4]2+[Cu(H2O)4]2+
Colored transition metal ions alter color uponbonding to a different Lewis base.
The charge on a complex ion = that of the metal ionwhen the metal ion is bonded to an uncharged Lewisbase.
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Example 2: Replacement of water with chloride ions. Q. Complete the equation below:
Aquo Complex Ion Reactions
[Cu (H2O)4]2+ + 4 Cl- → ___________________
DEMO
Tetra aquo copper(II) ion Tetra chloro copper(II) ionThe charge on the complex ion alters due to reaction with acharged base
Lewis Acid-Base ReactionsLewis Acid-Base Reactions
Complexes react if a better partner (acid or base) isavailable so as to form a more stable bond.
Hemoglobin is a complex of Fe that binds to/transports oxygen
Example 4: The base ammonia in the Cu(II) product(ammine complex ion) will react and bond to a better acidthan Cu(II) ions such as H+:
Aquo Complex Ion Reactions
[Cu (H2O)4]2+ + 4 NH3 [Cu(NH3)4]2+ + 4 H2O
DEMOQ. What will you observe upon adding acid(H+) to the deep violet-blue ammine product?
