Source :
Applied Surface Science
Descriptors :
Dye-sensitized solar cells , Functionalized graphene , Band gap opening , Density of electronic states
Abstract :
In this research, covalently functionalized graphene oxide (GO) with some biocompatible amino acids
were incorporated to the TiO2 film and employed as the photoanodes of dye-sensitized solar cells (DSSCs).
Electrochemical analysis of the amino acids-functionalized graphene oxide (AFGs) confirmed that the
attached amino acids could be acted as a reducing agent of the GO. The photovoltaic performance of the
assembled DSSCs under illumination of simulated AM 1.5 sunlight (100 mW cm−2) showed an enhancement
of about 4.1 and 1.8 fold for the solar cell assembled with the tyrosine-functionalized GO in relation
to the control solar cells constructed with GO-TiO2 composite and blank TiO2 film, respectively. These
results were in accordance with electron life time and transport time resulted from the open circuit voltage
decay (OCVD), electrochemical impedance spectroscopy (EIS) and intensity modulated photocurrent
spectroscopy (IMPS) analysis. The density functional theory (DFT) calculations exhibited a proper spacial
arrangement for the tyrosine-GO structure that could improve electron transfer between the adjucent
GO sheets. Density of electronic states (DOS) exhibited a gap between the highest occupied molecular
orbital (HOMO) and the lowest unoccupied molecular orbital (LUMO) energy levels for the simulated AFG
structures. This effect could facilitate the light adsorption process in near-IR region.
Title of Article :
Beneficial effects of amino acid-functionalized graphene nanosheets
incorporated in the photoanode material of dye-sensitized solar cells:
A practical and theoretical study
Author/Authors :
Mahmood Taki , Behzad Rezaei , Najmeh Fani , Sedigheh Borandeh , Amir Abdolmaleki , Ali A. Ensafi
Author/Authors - جزئيات :
