OrganometallicChemistry and Homogeneous Catalysissas.k.u-tokyo.ac.jp/AZ/Lecture1.pdf ·...
Transcript of OrganometallicChemistry and Homogeneous Catalysissas.k.u-tokyo.ac.jp/AZ/Lecture1.pdf ·...
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Organometallic Chemistry and Homogeneous Catalysis
Dr. Alexey ZazybinLecture N1
Kashiwa Campus, October 9, 2009
What compounds we can call organometallic compounds?
Compounds containing direct metal-carbon bonds:Compounds containing direct metal-carbon bonds:
Me W MeMe
MeMe
Me
OC FeCO
CO
CO
CO
Fe
Cl Ru CF2OC
ClPPh3
PPh3
C
WRO OR
OR
Ph
PhMgBr
MeLi
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2Organometallic vs. Metal-organic
Organometallic compoundscontain M-C bonds
Metal-organic compoundMetal-organic compounde.g. Ti(OMe)4
Coordination compoundse.g. [Co(NH3)6]3+
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3Which of the following compounds is (are) organometallic compound(s)?
a) OCH 3
TiCH 3O OCH 3
OCH 3
b)
NH 3
CuH3N NH 3
NH 3
2+
Cl-
O
Cl Pt
Cl
Cl
c) CH 2
CH 2
d)O Pt O
O
O
Me
Li
Li
Li
MeMe
Me
Lie) CoCo
Co
P
Co
P COCO
COCO
OC
OC
OCOC
C O
CO
Ph
Ph
f)
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4Why organometallic chemistry? a) From practical point of view:
OMC are related to many industrial processes, especially catalytic processes, e.g. è In production of fine chemicalsè In production of chemicals in large-scale
b) Organometallic chemistry is related to material science, e.g. some organometallic compounds can be used to prepare solid materials:
Organometallic Polymers, e.g.
Pt C
PBu3
PBu3
C C Cn
Pt C
PBu3
PBu3
C C C
n
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c) OMC are precursors to:- films for coating(η3-C3H5)2Pd à Pd filmCH3C≡C-Au-C≡NCH3 à Au film
-nanoparticles (appliations in electronic, magnetic, or optical devices or in sensors)
Why organometallic chemistry?
d) Main use in organic synthesis and (homogeneous) catalysis.Using metals, you can make complicated organic structures that would be hard to make otherwise.This is because, compared to "standard organic chemistry", metals display new and unusual reaction types.
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History1) Zeise’s Salt synthesized in 1827
K[Pt(C2H4)Cl3] • H2O– Confirmed to have H2C=CH2 as a ligand in 1868– Structure not fully known until 1975
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2) Ni(CO)4 synthesized in 1890
3) Grignard Reagents (XMgR) synthesized about 1900
Accidentally produced while trying to make other compounds
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4) Ferrocene synthesized in 1951a)Modern Organometallic
Chemistry begins with this discovery
b)Many new ligands and reactions produced ever since
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5) Organometallic Chemistry has really been around for millions of yearsa)Naturally occurring
Cobalimins contain Co—C bonds
b)Vitamin B12
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8Nobel-Prize Winnersrelated to the area:
K. Ziegler, G. Natta (1963)Ziegler-Natta catalyst: polymerization catalyst
E. O. Fisher, G. Wilkinson (1973)E. O. Fisher, G. Wilkinson (1973)Organometallic sandwich compounds
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9Nobel-Prize Winnersrelated to the area:
K. B. Sharpless, R. Noyori, W. S. Knowles (2001)Asymmetric catalysis
Y. Chauvin, R. H. Grubbs, R. R. Schrock (2005)Y. Chauvin, R. H. Grubbs, R. R. Schrock (2005)Metathesis method in organic synthesis
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Structure of organometallic compounds
M
L1
L2
L5
L6
L3
L4
at least one ligand is attachedto metal through C-atom
Properties
0
II.a. Ligands with C-atom attached to M(CH3, aryls, alkenes, arenes, cyclopentadienyls)
II.b. Ligands with other atoms attachedto metal (H, halogens, CO, phosphines)
I. Nature of M II. Nature of L
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I. Nature of M
Early
Middle
Late
Main and Transition Metals
1
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Early Transition MetalsGroups 3,4
Strongly electrophilic and oxophilicFew redox reactions (exception: Ti)
Nearly always < 18e
2
Nearly always < 18ePolar and very reactive M-C bonds
(to alkyl and aryl)
Few d-electrons:- preference for "hard" σ-donors- weak complexation of π-acceptors
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Early Transition MetalsGroups 3,4
Typical catalysis: Polymerization
MeM M
MeM
3
M M
Me
M etc
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"Middle" Transition MetalsGroups 5-7
• Many accessible oxidation states• Mostly 18e• Ligands strongly bound
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• Ligands strongly bound• Strong, not very reactive M-C bonds• Preference for σ-donor/π-acceptor
combinations (CO!)
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"Middle" Transition MetalsGroups 5-7
Typical catalysis: Alkene and alkyne metathesis
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M CH2
CH2 CH2
MCH2
CH2
CH2
CH2 CH2
M CH2
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Late Transition MetalsGroups 8 (and 9)
• Many accessible oxidation states• Mostly 18e or 16e
16e common for square-planar complexes
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16e common for square-planar complexes
• Easy ligand association/dissociation• Weak, not very reactive M-C bonds• Even weaker, reactive M-O/M-N bonds• Preference for σ-donor/weak π-acceptor
ligands (phosphines)
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Late Transition MetalsGroups 8 (and 9)
Typical catalysis: HydroformylationH
M MH
MCO
COM
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M
O
MH2
O
MH
O
HH
O
H2
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Transition Metals
1 rowst
8
1 row2 rownd
3 rowrd
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1st row:• often unpaired electrons• different spin states (HS/LS) accessible• highest oxidation states not very stable
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2nd/3rd row:• nearly always "closed shell"• highest oxidation states fairly stable• 2nd row often more reactive than 3rd
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Alkyl ligands
“pure” alkyls: alkyls with other functional groups:
Si
CH3
H3C
CH3
CH2 neosilyl
CF3 trifluoromethyl
II.a. Ligands with C-atom attached to metal 0
CH3 CH3CH2
CH3CH2CH2 CHH3C
H3C
C
CH3
H C C
CH3
H3C CH2
methyl ethyl
propyl isopropyl
tert-butyl neopentyl
H2C
C
CH3
CH3
CH2
benzyl
neophyl
CH3C
CH3
CH3C
CH3
CH2tert-butyl neopentyl
norbornyl adamantyl
Nature of M-C bond: Electronegativity so, polarization is Mδ+-Cδ-
C 2.5
M 0.9÷2.3
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Alkyl ligands
Synthesis of Metal Alkyls
1) Alkylation with a nucleophilic organometallic species
2) Nucleophilic addition to an electrophilic alkyl
II.a. Ligands with C-atom attached to metal 1
2) Nucleophilic addition to an electrophilic alkyl
3) Oxidative Addition 4) Insertion
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Alkyl ligands
“Internal” stability of metal-alkyl compounds:
β-hydride elimination
ß-Hydride elimination occurs for nearly all transition metal-alkyls that meet
II.a. Ligands with C-atom attached to metal 2
the following requirements:1. The β-carbon must have hydrogen substituents
H2C M
Si
CH3
H3C
CH3
CH2 M C
CH3
CH3
CH2 M
CF3 M
CH3 M C
CH3
H3C
CH3
CH2 M
Do not have β-hydrogens:
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Alkyl ligands
ß-Hydride elimination occurs for nearly all transition metal-alkyls that meet the following requirements:2. The M-C-C-H unit can adopt a roughly syn-coplanar conformation that brings the ß-hydrogen close to the metal center.
M
M
II.a. Ligands with C-atom attached to metal
Can not adobe syn-coplanarconformation:
3
M
3. There is a vacant coordination site (orbital) cis to the alkyl substituent
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Main group and early transition metal alkyls are very sensitive to water and oxygen.Late transition metal alkyls are more stable to water and oxygen.Both main group and transition metal alkyls are unstable towards halogenes and solutions of halogenes:
Alkyl ligands
Stability of metal-alkyl compounds towards water, oxygen, etc.
II.a. Ligands with C-atom attached to metal 4
M R + I2 M I + R I
Agostic interactions
The word agostic is derived from the Greek word for "to holdon to oneself". It most commonly refers to a C-H bond on a ligand that undergoes an interaction with the metal complex.
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Aryl ligands
II.a. Ligands with C-atom attached to metal
5Agostic interaction is a term for the interaction of a coordinately-unsaturated
Transition metal with a C-H bond, when the two electrons involved in the C-H
bond enter the empty d-orbital of a transition metal, resulting in a two electron
three center bond.
Aryl ligands
Aryl ligands are relatively strong anionic two electron
donors, essentially just like alkyls. Since they cannot
easily β-hydride eliminate (formation of the benzyne
intermediate is typically too unstable), metal aryl complexes
are usually relatively stable compared to alkyls with β-hydrogens. But
“stable” is a relative term since transition metal aryl complexes are also quite air-
sensitive and reactive.
M
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Rare example of benzyne complex
Compare stability of alkyl and aryl ligands:
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Metal complex Dissociation energy, kcal/mol
CH3-Mn(CO)5 36
C6H5-Mn(CO)5 49
1)
2) TiPh4 and TiMe4
TiPh4 decomposes only above 0°C, whereas TiMe4 decomposes at – 40°C.
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It is possible to obtain quite stable aryl complexes if the β-H-elimination reaction is blocked by replacing both ortho H β-atoms of the phenyl ligands by substituents. This condition is perfectly achieved in the mesityl ligand:
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Aryls do have the potential for both π-donation and π-backbonding through the filled aryl π-orbitals and empty π* antibonding orbitals. This can provide additional stability to a metal complex,depending on whether the metal needs additionalelectrons from the ligand or wants to dump excesselectron density onto the ligand.
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Allyl ligandsM
M
3η1η
Allyl ligands can act both as 1η – ligand (similar to any other alkyl) and 3η –ligand (3-electron ligand). Usually 2 resonance forms can be drawn as hybrid:
M M M
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Cyclopentadienyl ligands
H3C CH3
CH3
H3C
H3C
Cp Cp*
6e-strongdonor
6e- stronger donorbulky ligand
KC5H5, 1901; Fe(C5H5)2, Miller, 1951
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Cyclopentadienyl ligand that normally coordinates in an 5η mode as a 6e- donor, but it can adopt 3η- and 1η-coordination modes:
M M
ηηηη5 ηηηη3 ηηηη1
M
H
Different types of coordination can be seen within one range of complexes:
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Different types of coordination can be seen within one range of complexes:
Re
ηηηη5 ηηηη3 ηηηη1
OC
CO
CORe
CO
CO
COMe3P
PMe3PMe3Re
CO
CO
CO
Me3P
Me3P
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2-
fulvalenediyl (2-) indenyl (-) fluorenyl (-)
7e-
Cp-variants: 0
Mo
azulene
2.45Å
7e-donor
Behrens, Angew. Chem., 1987
In compare to Cp, indenyl can more easy switch between5η and 3η coordination mode. Indenyl is also a better π-acceptor than Cp
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Complexes of the cyclopentadienyl ligand fall into 4 classes:
Half-sandwich Scorpionate Sandwich Bent-metallocenes
MLn MLnX
M M
Reactivity of ferrocene complex:
1