POLITECNICO DI MILANO M. Sansotera a, P. Metrangolo a, W. Navarrini a, G. Resnati a, I. Wlassics b a...

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M. Sansoteraa, P. Metrangoloa, W. Navarrinia, G. Resnatia, I. Wlassicsb

 a Dip-CMIC “Giulio Natta”, Politecnico di Milano, via Mancinelli 7, 20131 Milan, Italyb R&D Centre, Solvay Solexis, viale Lombardia 20, 20021 Bollate (MI), Italy

15th European Symposium on Fluorine Chemistry 15-20 July 2007, Prague, Czech Republic

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New Advances in Perfluoroalkytation of Aromatics: Products and Mechanism

PERFLUOROALKYLATIONSTRATEGIES

NUCLEOPHILIC ATTACK ON PERFLUOROALKENES

R

R

F

F

NuC

R

RF

F

Nu

ER

RF

F

Nu E

R

R

F

Nu-F_

+

_

F

F

F

F

F

F

F

F

R

R

F

R

C

R

RF

R

FE

R

RF

R

F EF

+

F

F

F

F

F

F F F

F

PERFLUOROALKYLATIONSTRATEGIES

NUCLEOPHILIC ADDITION

- Organometallic Reagents, RFZn or RFLi

- Trifluoromethylation with CF3Si(CH3)3

R'

O

RMR

R'R

R

OH

R, R' = H, AlkylM = Li, Zn

F

F

R'

O

RSi(CH3)3CF3

R'R

CF3

OH

R, R' = H, Alkyl

PERFLUOROALKYLATIONSTRATEGIES

ELECTROPHILIC PERFLUOROALKYLATION

R I R I (OCOCF3)2 R I+

Ph

OH2O2, (CF3CO)2O C6H6, CF3SO2OH (TfOH)

Tf

NuRNu

R I+

Ph

O Tf

Nu = carbanions, activated aromatics, enolate derivatives.

F F F

FF

FITS

PERFLUOROALKYLATIONSTRATEGIES

- Iodoperfluorocompound in presence of peroxidic agent

- Perfluoroalkylsulfonyl chloride catalyzed by Ru

- Perflurodiacyl Peroxide

IR CO2Ar RROOR'

Ar H IR+ ++F F

SO2ClR SO2Ar RRu

2+

Ar H+ +F F

FREE RADICAL

OO

O

O

RR Solvent

OH

O

R CO2ArR+ Ar - H ++F

F FF

SYNTHESIS OFPERFLUORODIACYL PEROXIDES

H2O2 OO

O

O

RR

NaOH/H2O

Solvent2 +- NaF F

F

Preparation of PERFLUORODIACYL PEROXIDES[1]

CF2

OO

O

O

CF2

CF2

CF2

CF3

CF3

Perfluorodi-n-butyryl Peroxide

Yield 50%

CF3

OO

O

O

CF3

CF3F

CF3F

Perfluorodi-iso-butyryl Peroxide

Yield 70%

CF3

OO

O

O

CF2

CF2

CF3

Perfluorodipropionyl Peroxide

Yield 30%

[1] W. Navarrini, M. Galimberti, E. Barchiesi J.F.C. 2005, 126, 587

CHARACTERIZATIONPERFLUORODIACYL PEROXIDES

FT-IR

CF2CF3RF =

CF3

CF3 FRF =

30

35

40

45

50

55

60

65

70

75

80

85

90

95

100

105

110

%T

1858 cm-1

1830 cm-1

1500 2000

Wavenumbers (cm-1)

1856 cm-1

1827 cm-1

1500 2000 1500 2000

1860 cm-1

1831 cm-1

CF2CF2CF3RF =

19F-NMR

ppm

Solvent Peaks

CF3 CF2

Solvent Peaks

-100-500

0

1000

2000

3000

4000

3.1

2.0

ppm -80.0-75.0-70.0-65.0-60.0-55.0

0

10000

20000

30000

40000

50000

6.0

ppm-185.3-185.2-185.1

0.9

F

Solvent PeaksCF32

ppm -100-50

0

5000

10000

15000

20000

25000

3.6

2.0

2.1

CF3 CF2 CF2

CF2CF2CF3RF =

CF3

CF3 FRF =

CF2CF3RF =

kd x 105 (s–1)

DECOMPOSITION OFPERFLUORODIACYL PEROXIDESDecomposition kinetics[2] of PERFLUORODIACYL

PEROXIDES

R

O

O O

O

R R

O

O O

O

R

CO2R.2 + 2F F F F F

[2] M. Sansotera, C. Corvaja, A. Famulari, L. Franco, M. Galimberti, P. Metrangolo, W. Navarrini, G. ResnatiChemToday 2006, 24, 3, 17

3,7

2,530

30 5,3

7,8

Peroxide T (°C) t1/2 (h)

CF2

OO

O

O

CF2

CF2

CF2

CF3

CF3

CF3

OO

O

O

CF3

CF3F

CF3F

CF3

OO

O

O

CF2

CF2

CF3

60 4,4 4,4

SOURCES OFPERFLUORINATED RADICALS

EPR-characterization of PERFLUORORADICALS

C C

F

F

FF

F. C

CF

F F

C F

FF

F

.

J = 87,7 Gauss J = 70,2 GaussJ = 86,4 Gauss

C C

F

FF

F

C

F

F

F.

-- Experimental

-- Calculated

T = 40 °C T = 60 °CT = 40 °C

SOURCES OFPERFLUORINATED RADICALS

Quantum mechanic calculations[2] for the study of the structures of PERFLUORORADICALS

[2] M. Sansotera, C. Corvaja, A. Famulari, L. Franco, M. Galimberti, P. Metrangolo, W. Navarrini, G. ResnatiChemToday 2006, 24, 3, 17

The electronic structures have been investigated at the DFT-B3LYP level by means of the GAMESS-US program with the 6-311G** basis set.

Distortion from the Planarityin perfluoroethyl radical

25°

Distortion from the Planarityin perfluoro-iso-propyl radical

5°

PERFLUOROALKYLATION OF AROMATIC SUBSTRATES

OO

O

O

RR Solvent

OH

O

R CO2ArR+ Ar - H ++F

F FF

86%95% 97%RF

CF2CF3R =F

Ar-H Product Yields

CF2CF2CF3R =FCFCF3

R =2

F

96%

(4%)a

89%

(4%)a

69%

(31%)a

CH3CH3

RF

a Yields of benzylic by-products.

64%39% 68%

Cl Cl

RF

MECHANISMFROM LITERATURE

RO O

RO

O

CO2

RC

+O O

RO

OR

C O OR

O

O

O

R

O

R

OR

O

.

+

+

+

+ .

F

F

F

F

F

F

F

F

F

Mono-electronic transfer process[3]

Formation of products

RO

O

R

R

O

O H

H

HR

+ +.. +

F

F

FF

[3] H.Sawada, Chem. Rev. 1996, 96, 1779

PERFLUOROALKYLATIONMECHANISM

R

O

O O

O

R R

O

O O

O

R

CO2.2 + 2RF F F F F

Thermolytic Initiation

RO O

RO

ORH

CO2

RO

O

RH

.

+ +

.RF

F

F

FF

F

Electron Transfer Propagation

Carbocation Aromatization

RO

O

RHR

R

O

O H+ + +

F

F

F

F

O OR

O

OR

CH3

CO2

CH2

CH2

O

O

R

R H.

.RF

F

F

F

F

MECHANISM OF SECONDARY REACTION

Hydrogen Abstraction

Benzyl Radical Induced Decomposition

CH3

R H

CH2

R .+ +

.

F F

CONCLUSIONS

• A procedure for the synthesis and characterization of perfluorodiacyl peroxides has been developed.

• EPR analyses demonstrated they are source of perfluorinated radicals.

• Quantum mechanics calculations and EPR analyses in substantial agreement corroborate the deviation from planarity as important

factor of the stabilizing effect of substituents on the radical center.

• Perfluorodiacyl peroxides have been used to perfluoroalkylate different aromatic substrates and for this reaction a mechanism for

products and by-products has been proposed.

ACKNOWLEDGMENTS

Politecnico di MilanoDr. S. BiellaDr. F. MeyerDr. F. ChauxDr. G. TerraneoDr. A. FamulariMr. M. UrsiniMr. F. Venturini Ms. M. BonacinaMr. A. Marcon

Solvay Solexis – S.p.a.Dr. M. GalimbertiDr. S. RadiceDr. E. BarchiesiMr. G. Ciocca

Università degli Studi di PadovaProf. C. Corvaja Dr. L. Franco

Politecnico di Milano

Solvay Solexis – S.p.a.

Università degli Studi di Padova