V. Ramamurthy (murthy) - University of Miami 1...12/25/10 1 V. Ramamurthy (murthy) Department of...
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V. Ramamurthy (murthy)
Department of Chemistry University of Miami
Coral Gables, FL
Email: [email protected]
Supramolecular Photochemistry
Controlling Photochemical Reactions Through Weak Interactions and Confinement
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References
“Supramolecular Photochemistry: The Control of Organic Photochemistry and Photophysics Through Intramlecular Interactions”
Chapter 13 in “Modern Molecular Photochemistry of Organic Molecules”, N. J. Turro, V. Ramamurthy and J. C. Scaiano, 2010.
“Reaction Control by Molecular Recognition – A Survey from the Photochemical Perspective” by C. Yang, C. Ke, Y. Liu and Y. Inoue,
Chapter 1 in “Molecular Encapsulation: Organic Reactions in Constrained Systems”, U. H. Brinker and J. -L. Mieusset, 2010.
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Thermal Chemistry Photochemistry
What is the difference?
• Mode of activation
• Selectivity in activation
• Energy distribution
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• Transition state connects a single reactant to a single product and it is a saddle point along the reaction course.
• Collisions are a reservoir of continuous energy (~ 0.6 kcal/mol per impact).
• Collisions can add or remove energy from a system.
• Concerned with a single surface.
Visualization of Thermal Reactions
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Visualization of Thermal Reactions
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Visualization Photochemical Reactions Two surfaces are involved
Adiabatic Diabatic
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400 nm 700 nm500 nm
71.5 kcal/mol 57.2 kcal/mol 40.8 kcal/mol
Ultraviolet RegionChemical Bonds ofDNA and ProteinsDamaged
Infrared RegionChemical Bonds Energy too low to make or break chemical bonds.
X-Rays0.1 nm300,000 kcal/mol
Microwaves1,000,000 nm0.03 kcal/mol
Huge energiesper photon.
Tiny energiesper photon.Themal energies
at room temperatureca 1 kcal/mole
Light and Energy Scales
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Photochemistry consists of two parts
• Photochemical
• Photophysical
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Points to Remember
• Electronic Configuration of States, nπ*; ππ* • Spin Configuration of States (S and T) • Singlet-Triplet Gap (ΔE (S-T) • Rules of Intersystem Crossing (El-Sayed’s
Rule) • Absorption and Emission • Fluorescence and Phosphorescence • Radiative and Radiationless Transitions • Kasha’s Rule
Electronic and Spin Configuration of States
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Singlet-Triplet Gap and Intersystem Crossing
El-Sayed’s Rule
Stokes Shift
Absorption and Emission
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4
0
x106
700600500400300200
x500
Fluorescence and Phosphorescence
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Photochemists’ handy horoscope of a molecule Jablonski diagram: Radiative and Radiationless Transitions
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Photophysics: Excimer Emission
1.5
1.0
0.5
0.0650600550500450400350
wavelength (nm)
in methylcyclohexane solution
10 mM
1 mM0.1 mM
0.01 mM
7.5 mM
5 mM
2.5 mMnorm
alize
d flu
ores
cenc
e in
tens
ity
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Pyrene as an exemplar of excimer formation
hν *
*
* - hν
+
* +
Excimer
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TICT Emission
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Kasha’s Rule
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Examples of Common Organic Chromophores
O OO
O O O O
Carbonyls
Olefins
Enones
Aromatics
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Olefins(ππ*)
Geometric Isomerization
Hydrogen atom transfer
Proton transfer
Electron transfer
Di-π-methane (Zimmerman) rearrangement
Addition to C=C bond (non-concerted)
Carbonyls (nπ*)
α-Cleavage
β-Cleavage
Pyramidalization
Pericyclic reactions: Sigmatropic shiftsElectrocylisationsCycloadditions
Photochemistry: Common Photoreactions
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O
CH3CO + C(CH3)3hν
Products
Ihν
+ I Products
Ohν
O
Products
α-Cleavage
I hν+ I Products
Photochemistry: Primary Photoreactions (1)
X X
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O
Ph
Ph
O
Ph
Ph
hν Products
Ohν
O Products
H CH2OHH CH2OH
hνProducts
β-Cleavage
Ph OO
hνPh O
OProducts
O
O
hν O
OProducts
XX
Photochemistry: Primary Photoreactions (2)
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X X
H
R
O OH2OH+ Products
CH3OHhν
Sens.
C6H5+
C6H5
HProducts
O
OHhν
+
OHOH
+
CH2OH+
hν
Products
Hydrogen Abstraction
Photochemistry: Primary Photoreactions (3)
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Ar2CO + R2NCH3 Ar2CO + R2NCH3hν Products
PhCH + Me2NCH2RCHPh PhCH + Me2NCH2RCHPh Products
Productshν
NH
+NH
+
Ohν
Me2NCH2R+
O
Me2NCH2R Products+
hν
Electron Transfer
X X
N
Photochemistry: Primary Photoreactions (4)
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X X
X X
Addition to C=C bond, triplet, non concerted
O O+
hνProducts
+hν
ProductsSens
OO O
+hν Products+
Cl
Cl
hν+
Cl
Cl
ProductsSens
Photochemistry: Primary Photoreactions (5)
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I1
P1
P2
P3
R R* hυ
I2
P4
P5
P6
Photochemistry often yields multiple products
• Nature of the excited state, nπ* and ππ*
• Nature of the spin state, S1 and T1
• Level of the excited state, S1 and S2; T1 and T2
Controlling Photochemical Reactions Through Conventional Means
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Ph
O
Ph
O O
PhPh
O
Ph
O O
Ph
Benzene 100 0Acetonitrile 58 42
Formamide 38 62
hν + + ++
H
nπ* ππ*
S1S2
nπ*
ππ* Product A
Product B
Reactant
Nature of the excited state, nπ* and ππ* control through solvents
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O
O
O
O
O
O
O
O
O
O
O
O
O
O
++
None
In presence of BF3
20 71 10
0 10 90
hν
nπ* ππ∗
S1S2
nπ*
ππ* Product A
Product B
Reactant
Nature of the excited state, nπ* and ππ* control through additives
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hν
Sens.
hν
Direct
+
CH2
hν
Directhν
Sens.
C6H5 hν
C6H5
OCH3
CH3OH
C6H5
CH2OH
hν
Sens.
O
O
Ohν
sensitized
hν
Spin state control through sensitization
Spin control
T1
S1 Product A
Product B
Reactant
Slow
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Cyclohexane 4.97
n-Butyl chloride 2.37
n-Propyl bromide 0.41
Ethyl iodide 0.25(10% mole %)
Cis/trans dimerSolvent
100 : 0T1 : 1 : 9
S1 :
hν
Spin state control through heavy atom effect
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S1
S2Product A
Product B
Reactant
T1
T2
Product D
Product C
Kasha's rule and large energy gapsLarge energy gap and violation of Kasha’s Rule
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S1
S2 Product A
Product B
Reactant
Large energygap
S O
+
+
OSH
O
HS
OOSH
O+
Controlling nature of reactive state with wavelength of irradiation Reaction from upper excited singlet states
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Controlling nature of reactive state with wavelength of irradiation: Reaction from upper excited triplet states
S1
Large energygap
T1
Tn
2 photons
77 K
2 photons
77 K
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• Electronic barrier: Electronic configuration (nπ* vs. ππ*)
• Spin barrier: Spin configuration (S1 vs. T1)
• Enthalpic barrier: Presence of activation energy
• Entropic barrier: Changes in conformational, rotational and translational freedom
• Competition: Radiative, radiationless and other reactive modes
Controlling Photochemical Reactions
ΔF# = ΔH#–TΔS#
Φp = kr/Σk
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Overcoming the enthalpic barrier with temperature control
R P1P2
R*P1*P2*
Energy barrier Smaller or noenergy barrier
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+ + +
+
N
-78 o
hν
Room temp.
hν
Temperature oC
22 30 45 6 11 80 30 34 3 5 31
20 5 - 75 - 35 -- 78 10 - - - 90
N
4 1 2 3 5
N N
1 2 3 4
5 1
Overcoming the enthalpic barrier by controlling temperature of photoreaction
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P1
P2
P3
R hυ
P4
P5
P6
R*
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hυ
O
Me H
PhH.
.
O
Me H
PhH.
.O
Me H
Ph
H H2C CMe Ph
OH++H
Ph Me
O
(CH3)3COH
OH
Benzene
O
Me
HPh
HΦ in ter-butanol: 1.0Φ in benzene: 0.4
Cutting cut down competition with choice of solvent
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+ (A*D A- + D+ )
A- + D+ A + D
O O
Ph Ph
O
D
HexaneO
O
Ph
Ph
A*
O
Acetonitrile
Φ in hexane 0.5Φ in acetonitrile 0.001
Cutting cut down competition with choice of solvent
I1
P1
P2
P3 hυ
I2
P4
P5
P6
R
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hν
254 nm
hν
313 nm
OH
O O
O
254 nm313 nm
Controlling chemistry with wavelength of excitation
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MeOH
EtO
O
O
O
CH3
CHO
H
OEtO O
H3C
CH
OH
EtOO
+
O
CH3
CHO
H
OEtO O
H3C
CH
OH
EtOO
Hexanes 1 : 1
CH3OH 1 : 5
hυ
MeOSiEt3
EtO
O
O
O
CH3
CEt3SiO
H
OEtO O
H3C
CH
OSiEt3
EtOO
O
H3C
CH
OH
EtOO
hυ/Hexane
100%
does not exist
Conformational control through choice of solvent
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Gas phase Solution (solvent + solute)
Reaction more selective
Why reactions in biological media are highly selective compared to gas phase and solution?
Are there any other media with some of the features of biological media?
Protein
Medium Matters
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How do a biological media enforce selectivity?
✹ by restricting the rotational and translational motions ✹ by pre-organizing the reactants ✹ by controlling the extent and the location of free space
within a reaction cavity
Photoactive yellow protein
Highly selective geometric isomerization occurs within a protein medium
Bacteriorhodopsin Rhodopsin Green fluorescent protein
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Controlling Photochemical Reactions Through Weak
Interactions and Confinement