Photochemistry Part I - Rutgers...
Transcript of Photochemistry Part I - Rutgers...
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Advanced Organic Chemistry Chm 512/412 Spring 2010
Handout I “Photochemistry Part 1
Photophysical Processes Quenching
Alkene cis-trans Isomerization
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Importance of Photochemistry/Photophysics
Organic Synthesis - strained multiple bonds - cyclobutanes - oxetanes - 1,2 diols - polycyclic compounds -reactive intermediates: nitrenes; carbenes; radicals
Analytical Chemistry Fluorescence Spectroscopy & Luminescence Imaging Techniques Chemical sensors
Material Sciences -Photopolymerization Photochromism - Photochromic Materials - Photography - Photolithography
N O
Me Me
MeNO2
Δ or vis light
UV
N-O
NO2
Me
Me Me
purple
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Clean Energy through Photochemistry without CO2 Emission - Photovoltaic cells - Photochemical splitting of water
H2 + O2H2Ophotocatalyst
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Photobiology Photochemistry of Biomolecules (Nucleic Acids, Amino acids, Proteins, Lipids) Photosynthesis Visual Transduction Biological Effects of Solar Ultraviolet Radiation Photocarcinogenesis
Photomedicine Photochemotherapy Photodynamic Phototherapy
hν
N
NH HN
N
Protoporphyrin IX (PP-IX)
PP-IX*
O2
Singlet OxygenPP-IX
1O2celldamage
COOHCOOH
HN
N
O
O
DNAthymine
NH
N
O
O
DNAthymine
hν
N
NHHN
N
OO
O O
DNADNA
N
NHHN
N
OO
O O
DNADNAHHH H
photolyase
>290 nm
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Published in: Arunkumar Natarajan; C. K. Tsai; Saeed I. Khan; Patrick McCarren; K. N. Houk; Miguel A. Garcia-Garibay; J. Am. Chem. Soc. 2007, 129, 9846-9847. DOI: 10.1021/ja073189o Copyright © 2007 American Chemical Society
The Beginnings of Organic Photochemistry
1834: First photochemical transformation described by Trommsdorff: Exposed α-Santonin (1)crystals to sunlight and observed that they turned yellow and bursted. The mechanism was elucidated in 2007 by Arunkumar Natarajan et al.
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Photochemistry
- Study of reactions that involve excited states of organic molecules These reactions are initiated by the absorption of a photon by one reactant leading to its excited state (Excitation Process)
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Grotthus-Draper Law (First Law of Photochemistry)
“Only radiation absorbed in a system can produce a chemical change.”
Rhν
R*groundstate
excitedstate
P
Stark-Einstein Law of Photochemical Equivalence
“Number of activated molecules = number of quanta of radiation absorbed.”
+ 1 R0 1 R*1 hν
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Photochemistry
Properties of Excited State: geometry; electronic configuration
Photophysical Processes Photochemical Processes
1) Relaxation Processes - Chemical reactions of the excited state -Dissipation of energy and change of fragmentations
electronic configuration after excitation cis/trans isomerizations Vibrational Relaxation rearrangements
Internal Conversion addition/cyclization reactions Intersystem Crossing photo oxidations
2) Decay Processes Important Compound Classes - Return to ground state with release of energy alkenes, dienes & polyenes
Quenching – energy transfer aromatic compounds Fluorescence carbonyl compounds Phosphorescence nitrogen-containing compounds Luminescence (R-N3, RR’C=N2, R-NO2, R-N=N-R, R-ONO) singlet oxygen halogen-containing compounds
Rhν
R*groundstate
excitedstate
P
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Excited State of the Molecule
- Energy of the molecule has increased by the energy of the absorbed photon - Photochemistry deals in part with properties of the excited state
Eexc = E* - E0 = hν = hc/ λ
Eexc = electronic excitation energy E* = energy of excited state E0 = energy of ground state h = Planck’s constant ν = frequency of absorbed radiation c = speed of light λ = wavelength of absorbed radiation
- Wavelength range of most photochemical reactions: UV/Vis region: 200 nm ≤ λ ≤ 700 nm; 143 kcal/mol ≥ E ≥ 40.8 kcal/mol
With modern high intensity light sources (lasers) two photon excitation is possible (IR photolysis)
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Photochemical Excitation Adsorption of a photon is accompanied with an electronic transition
So
hν
S1fi rst excited state
Ground State Singlet Excited States
Snhigher excited states
or or
π1
π2
π3
π4
T1first excited state
Triplet Excited States
S1 (π2, π3) (π1 )2 (π2 )1 (π3 )1
S2 (π2, π4) (π1 )2 (π2 )1 (π4 )1
T1 (π2, π3) (π1 )2 (π2 )1 (π3 )1S3 (π1, π3) (π1 )1 (π2 )2 (π3 )1
electronic configurationexcited state
S2 S3
Electronic State Excited State Electronic Configuration (enumerative) (Kasha) S0 - ( 1)2 ( 2)2 ( 3)0 ( 4)0
S1 1( 2, 3) ( 1)2 ( 2)1 ( 3)1 ( 4)0
S2 1( 2, 4) ( 1)1 ( 2)2 ( 3)1 ( 4)0
S3 1( 1, 3) ( 1)2 ( 2)2 ( 3)0 ( 4)0
T1 3( 2, 3) ( 1)2 ( 2)1 ( 3)1 ( 4)0
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Symbolism to denote electronic states, excited states and electronic transitions
1. Electronic states and excited states (a) Enumerative system Used if the electronic configuration of the excited state is not known. States are labeled according to multiplicity and increasing energy.
S0 for ground state and S1, S2, … and T1, T2, … for first, second,… singlet and triplet states.
(b) Kasha’s MO representation for excited states Used, if electronic configuration of excited states are known. Excited states are labeled by type of MOs involved and multiplicity.
1(π2, π3), 1(π2, π4), 3(π2, π3), 3(π2, π4) for S1, S2,T1 and T2
Superscript 1 or 3 stands for multiplicity The two MOs are those involved in the transition.
2. Electronic Transitions (a) Enumerative system An arrow denotes the transition form the starting electronic state to the final electronic state.
S0 → S1, S0 → S2, T1 → S1
(b) Kasha’s MO formalism Based on the type of ground state MO involved (σ, σ*, n, π, π*) in process. The transition is denoted by an arrow directed from the symbol of the initially occupied MO to the symbol of the initially unoccupied MO.
π → π*, n → π*, σ → σ*
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Jablonski State Diagram
(1) Absorption (2) Relaxation (3) Fluorescence (4) Internal Conversion (5) Intersystem Crossing (6) Phosphorescence
S2
S1
S0
T1
E
radiative radiationless
14
4
2
2
5 63
5
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Example: Important electronic transitions of the carbonyl chromophore
So
n'
π
π* C O
C O
C O
σ*CC
σ*CC
n C O
3
1
2
1) n π* S1 280-320 nm
2) n σ* S2 ~ 180 nm
3) π π* S3 ~ 160 nm
transitionexcitedstate wavelength
C OH
HC O
H
H
1.21 A
S0 S1
1.32 A
Dipole Moment 2.3 Debye 1.3 Debye
(Buckingham et al. Can J. Phys. 1970, 48, 1242)
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Electronic transitions involves a shift of one electrons from a lower to a higher energy molecular orbital. In most cases these molecular orbitals are associated with a specific part (e.g. functional group) of the molecule. This part, that mainly absorbs the photon is termed the chromophore.
Examples are aryl units, polyenes, and other pi-bonds, carbonyl, -NO2, -N3 and C-Hal groups.
Chromophore
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Spin Selection Rule
An electronic transitions is allowed by the spin selection rule only if the multiplicity of the initial and final state are identical. E.g.
S → S T → T are allowed S → T T → S are forbidden
Symmetry Selection Rule (restricted to most common electronic transitions)
symmetry allowed are: π → π*; σ → σ* symmetry forbidden are: n → π*; n → σ*
Allowed transitions are strong (ε 1000-105) Symmetry forbidden transitions are weak (ε 1-1000) Symmetry and spin forbidden transitions are very weak (ε 10-5 -1)
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Jablonski State Diagram
(1) Absorption (2) Relaxation (3) Fluorescence (4) Internal Conversion (5) Intersystem Crossing (6) Phosphorescence
S2
S1
S0
T1
E
radiative radiationless
14
4
2
2
5 63
5
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Internal conversion is usually fast ifvibrational level 0 of Sx+1 state overlaps with vibrational level of Sx state. This is typically the case for x > 1 (k'IC > 109 s-1) . However, it is not the case for S1 -> S0 transitions, which is substantially slower (kIC < 106 s-1) .
Internal Conversion: Transition between two surfaces having the same multiplicity
Rate kIC depends on energy difference between surfaces
S2
S1
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Jablonski State Diagram
(1) Absorption (2) Relaxation (3) Fluorescence (4) Internal Conversion (5) Intersystem Crossing (6) Phosphorescence
S2
S1
S0
T1
E
radiative radiationless
14
4
2
2
5 63
5
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Excitation and Emission Spectrum of Fluorescein
O
COOH
HO O
hν1 hν2
Ie = 2.3I0εΦfbc hν1 hν2
Ie Intensity of emitted light I0 irradiation intensity ε extinction coefficient Φf !fluorescence quantum yield b path length of cell c concentration
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Jablonski State Diagram
(1) Absorption (2) Relaxation (3) Fluorescence (4) Internal Conversion (5) Intersystem Crossing (6) Phosphorescence
S2
S1
S0
T1
E
radiative radiationless
14
4
2
2
5 63
5
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Intersystem Crossing
Crossing of surfaces with different spin multiplicity
singlet → triplet S1 → T1, T2 non-radiative triplet → singlet T1 → S0 non-radiative or radiative (phosphorescence)
1) T1 lower than S1 (Hund’s Rule)
2) Intersystem crossing involves spin flip ↔ change in spin angular momentum
quantum mechanically forbidden => slow
3) Intersystem crossing is fast (allowed) if change in spin angular momentum is accompanied by change in orbital angular momentum
=> total angular momentum conserved
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El Sayed’s Rules
Predict, whether intersystem crossing in molecules without heavy atoms (molecules only containing 1st and 2nd row elements H, C, N, O) is allowed (favorable) or forbidden (unfavorable)
Transition between excited states
1(n, π*) ↔ 3(n, π*) forbidden 1(π, π*) ↔ 3(π, π*) forbidden
1(n, π*) ↔ 3(π, π*) allowed 1(π, π*) ↔ 3(n, π*) allowed
3(n, π*) ↔ ground state allowed 3(π, π*) ↔ ground state forbidden
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Intersystem Crossing of Carbonyl Compounds Spin-Orbit Coupling
C O C O C O
π* π n
C O C O
C O C O
hν(n,π*)
S0
T2 3(π,π*)T1 3(n,π*)
S1 1(n,π*)
ISC S1 -> T2
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Strongly endotherm -> no intersystem crossing Fastest if slightly exotherm or equal in energy
Rate constant of ISC depends on energy difference between S1 and T1/T2
S1
T2
T1
kISC ~ 109 s-1
kISC ~ kIC (S0 S1)
H3CC
O
CH3 PhC
O
Ph
S1
T1kIC ~ 109 s-1
T2
kISC ~ 1011 s-1
kISC >> kf or kIC (S1 S0)
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Examples of Intersystem Crossing Rate Constants
Br
I
O
kST in s-1
5 x 106
<107
109
1010
1011
Heavy Atom Effect
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Examples of Phosphorescence Lifetimes of Organic Compounds In Ethanol at 77K
O
CH3
τ in s
0.007
0.007
0.002
4.2
6.6
O
H3C
O
O
CH3
NH
NH2
COOH
2.3
λ em in nm
415
445
507
515
460
440
Analytical Chemistry (1973) 45, 381.
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Quenching • Decay of excited state induced by a collision with another molecule
(quencher). Bimolecular process.
• Chemical quenching: Energy is transferred to quencher and converted into chemical energy. Quencher undergoes a chemical reaction.
• Physical quenching: • self-quenching or impurity quenching:
energy transfer, electron transfer or heavy-atom quenching (accelerated decay of excited state upon collision with a molecule (e.g. solvent) containing a heavy atom (3rd row or higher)).
A* Akf
Q + A* Akq
lifetime of A* without Q: τf ~ 1/kf
lifetime of A* with Q = τ2
1/τ2 = kf + kq [Q] = 1/τf + kq [Q] (Stern-Volmer Equation)
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535 nm
Eximer Spectrum of 9-Methylanthracene
CH3
415 nm
(From: Brinks, J. B. & Aladekomo, J. B., Photochem. Photobiol., 1963, 2, 415-418)
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Exiplex: Excited state complex or absorption complex. Complex between an excited state and a ground state molecule.
Eximer: Complex between two identical molecules of which one is in the excited state and the other in the ground state
Stabilized by induced dipole-dipole interactions or dispersion interactions, due to the high polarizability of the excited state, and by donor-acceptor interactions
Eximers are often observed for polyaromatic compounds such as anthracene and pyrene and can be identified in the fluorescence spectra of both compounds. The maximum of the emission spectrum of the eximer is shifted to higher wavelength (lower energy) relative to that of the monomeric excited state.
* * S1S1
S0 S0
pyrene eximer anthracene eximer
NMe2
* S1
S0
anthracenedimethylaniline
exiplex
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Common Organic and Inorganic Triplet Sensitizer and Triplet Energy ET
From Kavarnos & Turro, Chem. Rev. 1986, 86, 401
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Diabatic photochemical process Adiabatic photochemical process
R Phν
reaction coordinate
S1
S0
Ene
rgy
hν
R TS P
reaction coordinate
S1
S0E
nerg
y
hν
R TS P
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Quantum Yield
number of molecules that undergo photochemical process n
number of photons absorbed Φn =
Φf =
Fluorescence quantum yield Φf
number of photons emitted
number of photons absorbed
Quantum yield of a photochemical reaction Φr
Φr = number of product molecules formed
number of photons absorbed
Typically ≤ 1 but can be >> than 1, e.g. in photo polymerization or light initiated radical chain reactions.
< 1
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Mechanism of the Photoinduced cis-trans Isomerization of Stilbene (PhCH=CHPh)
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Triplet Sensitization or Organic Molecules
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Dependence of the photostationary state of the triplet sensitized cis-trans stilbene isomerization on the triplet energy ET of the sensitizer
200 250 300
cis/tra ns
5
15
ET sensitizer in kJ/mol
10
ET (trans-stilbene)
ET (cis-stilbene)
ET (twisted stilbene)
Organic Photochemistry(1973), Vol. 3, p.1