Fluorescence and Electrochemical Study of OPTO/PCBM coplymer

Fluorescence and Electrochemical Study of OPTO/PCBM coplymer

Autor:
Mgr. Marianna Gregová Trenčanová
Sekcia: 
Organická, bioorganická a farmaceutická chémia, farmakológia
Rok:
2015

Celkové hodnotenie

Vedecká práca
100%
Prevedenie (dizajn)
100%
Diskusná interakcia
100%
PoužívateľVedecká prácaDizajnDiskusná interakcia
RNDr. Soňa Halászová100%100%-
Mgr. Lenka Slušná100%100%100%
Mgr Eva Noskovičová100%100%-
RNDr. Michal Procházka100%100%-
Mgr. Marianna Gregová Trenčanová100%100%100%
Mgr. Táňa Sebechlebská100%100%100%
Ing. Pavol Farkaš PhD.100%100%100%
Autor: Mgr. Marianna Gregová Trenčanová
ISBN: 978-80-970712-8-8

Fluorescence and Electrochemical Study of OPTO/PCBM coplymer

Marianna Gregová Trenčanová1 , Inês Miranda2 , Carlos Pereira , Dušan Velič3
1 Department of Physical and Theoretical Chemistry Comenius University, Ilkovicova 4, 84215 Bratislava, Slovakia
2 Departamento de Química, Faculdade de Ciências da Universidade do Porto, Rua do Campo Alegre 687, 4169-007 Porto, Portugal
3 International Laser center, Ilkovičova 3, 81404 Bratislava, Slovakia
trencanova@fns.uniba.sk

Charge transfer dynamics of copolymer of alkylated oligothiophene with polyethylene oxide (OPTO)[1] were studied by steady state, femtosecond time-resolved fluorescence  spectroscopy and cyclic voltammetry in the presence of [6,6]-phenyl-C61 butyric acid methyl ester (PCBM). The interaction of polythiophene with PCBM is of great interest due to its possible application as cheap organic photovoltaic cell.

The steady-state spectra of OPTO/PCBM in toluene solution revealed decrease of fluorescence intensity from 3x105 to 104 cps and red shift of Stokes shift from 3007  to 3321 cm-1 for increasing concentration of the PCBM from 3x10-8 to 1.3x10-7 M, respectively. This changes indicates charge transfer between OPTO and PCBM. Time-resolved spectra of OPTO with and without addition of PCBM in toluene solution for wavelength from 440 to 600 nm were observed. The charge transfer process occurred faster at a lower excited state and with more PCBM.

Electrochemical results seem to corroborate the increase of charge transfer when PCBM is add to OPTO once the voltammetric results, obtained at modified screen printed electrode surface, show an increase of peak current for the [Fe(CN)6]3-/[Fe(CN)6]4- redox probe.

Poďakovanie: 

We would like to thank Scientific Cooperation Agreement between Portugal and Slovakia, under the project SK-PT-0015-12, for financial support.
This work was also supported by the Ministry of education in the Slovak Republic with grant no. UK/380/20014 and grants: ERDF OP R&D, Project ‘meta-QUTE-Centrum excelentnosti kvantových technológií’, NanoNet2.
Inês Miranda is grateful to FCT for financial support under PhD scholarship SFRH/BD/75026/2010.

Zdroje: 

[1] G. Čík et al. / Synthetic Metals 149 (2005) 31–38.

Diskusia

Pasívny

Have you some theory, why the Stokes shift is first decreasing and then increasing with increasing concentration of PCBM? Thank you.

11. 5. 2015 16:23
Pasívny

Thank you for your question.
I think, that decreasing Stokes shift could be interpreted as symple Rayleigh scattering on PCBM particles (there is no interaction of OPTO and PCBM, because concentration ..of PCBM is low) and increasing Stokes shift describes the interaction of OPTO and PCBM.

12. 5. 2015 15:50
Pasívny

13. 5. 2015 08:54
Pasívny

Thank you for your answer,
and only for information, it is possible to compute interaction size from Stokes shift?

13. 5. 2015 08:54
Pasívny

You can calculate difenrencees of enegy from Stokes shift.

13. 5. 2015 16:36

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