icono/lat 2005, st. petersburg
DESCRIPTION
Femtosecond dynamics of photoexcited nanocrystals TiO 2 in aqueous suspension. Yuri E. Lozovik * , Viktor A. Nadtochenko **, Oleg M. Sarkisov ***, Aleksandr S. Sobennikov *** * Inst. of Spectroscopy , Troitsk, Russia ** Inst. of. Prob. of Chem. Phys. , Chernogolovka, Russia - PowerPoint PPT PresentationTRANSCRIPT
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ICONO/LAT 2005, St. Petersburg
Femtosecond dynamics of photoexcited nanocrystals TiO2 in aqueous suspension
Yuri E. Lozovik * , Viktor A. Nadtochenko **, Oleg M. Sarkisov ***, Aleksandr S. Sobennikov ***
*Inst. of Spectroscopy, Troitsk, Russia **Inst. of. Prob. of Chem. Phys., Chernogolovka, Russia ***Inst. Of Chem. Phys., Moscow, Russia
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ICONO/LAT 2005, St. Petersburg
Scientific interest to Titanium Dioxide ( TiO2)
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ICONO/LAT 2005, St. Petersburg
1. In 1972 Fujishima and Honda discovered photocatalytic splitting of water on TiO2 electrodes.
Nature 37, 238,1972
2. In 1991 Grätzel demonstrated high-efficiency solar cell element based on colloidal TiO2
Nature 353, 737,1991
Historical overview of photocatalysis on TiO2
Note: Only Anatase form shows photocatalytic activity
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ICONO/LAT 2005, St. Petersburg
Key scheme of RedOx reactions driven by light in nanoparticles
L ight photon
eh
D
D
A
A
recombination
Nanoparticle acts as anintermediate in reaction of electron transfer
In some cases it can bemore efficient than direct electron transfer
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ICONO/LAT 2005, St. Petersburg
Probability of electron transfer (ET)
1. Due to the large value of S/V ratio the probability of ET for small particles is significantly higher than for bulk material
S
Vwhen R
2. For very small nanoparticles non-radiative recombination enhances
R > Rexciton
3. Surface defects trap carriers and increase the ET probability
Surface traps are very important
pH serves as an indicator of photocatalytic activity
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ICONO/LAT 2005, St. Petersburg
Experimental Setup
Pump – Probe Spectroscopy
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ICONO/LAT 2005, St. Petersburg
Information in photoinduced spectra
VB
CB
h
e
For TiO2 nanoparticles:
400-500 nm absorption by trapped holes
600-700 nm absorption by trapped electrons
Serpone et al., J.Phys.Chem 99, 16655,1995
Skinner et al., J.Phys.Chem 99, 7853,1995
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ICONO/LAT 2005, St. Petersburg
Samples and conditions of experiment
Pump pulse: λ = 308 nm τ = 70 fs
Supercontinuum probe:
380нм < λ <1000нм
TiO2
30 nm
Pump
Probe
- pH 2- pH 10
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ICONO/LAT 2005, St. Petersburg
Photoinduced spectra dynamics
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ICONO/LAT 2005, St. Petersburg
Early time kinetic curves
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ICONO/LAT 2005, St. Petersburg
Long time kinetic curves
( )t
e
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ICONO/LAT 2005, St. Petersburg
Mechanism of stretched exponent occurrence
Single way of relaxation Multiple ways of relaxation
12
34
( )t
e
( )
,0 1t
e
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ICONO/LAT 2005, St. Petersburg
Dependence of stretched exponent parameters on pH and
pH , nm , ps
2 500 1.6 0.3
2 700 0.7 0.3
10 500 4.7 0.3
10 700 3.3 0.3
t
e
Constant
pH lead to
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ICONO/LAT 2005, St. Petersburg
Conclusions
1. It was found that trapped carrier relaxation obeys stretch exponentialdecay
2. Parameter has “structure” nature and is equal to 0.3
3. In acid suspension relaxation is faster than in base due to surface charge
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ICONO/LAT 2005, St. Petersburg