Publications
2011
The Journal of Physical Chemistry C,
2011,
115,
14400-14407.
Fluorine Treatment of TiO2 for Enhancing Quantum Dot Sensitized Solar Cell Performance.
Journal of Applied Physics,
2011,
110,
014314-014320.
Energy transfer versus charge separation in hybrid systems of semiconductor quantum dots and Ru-dyes as potential co-sensitizers of TiO2-based solar cells.
Article page: http://jap.aip.org/resource/1/japiau/v110/i1/p014314_s1
Physical Chemistry Chemical Physics,
2011,
13,
9083-9118 .
Characterization of nanostructured hybrid and organic solar cells by impedance spectroscopy.
Physical Chemistry Chemical Physics,
2011,
7162-7169.
Modeling and characterization of extremely thin absorber (eta) solar cells based on ZnO nanowires.
The Journal of Physical Chemistry Letters,
2011,
2,
454-460.
Panchromatic Sensitized Solar Cells Based on Metal Sulfide Quantum Dots Grown Directly on Nanostructured TiO2 Electrodes. 2010
The Journal of Physical Chemistry C,
2010,
114,
22352-22360.
Direct Correlation between Ultrafast Injection and Photoanode Performance in Quantum-Dot Sensitized Solar Cells.
Article page: http://pubs.acs.org/doi/abs/10.1021/jp108499h
The Journal of Physical Chemistry Letters,
2010,
1,
3046-3052 .
Breakthroughs in the Development of Semiconductor Sensitized Solar Cells.
Journal of Applied Physics,
2010,
108,
64310.
Determination of limiting factors of photovoltaic efficiency in quantum dot sensitized solar cells: Correlation between cell performance and structural properties.
Materials Chemistry and Physics,
2010,
124,
709-712.
Influence of cysteine adsorption on the performance of CdSe quantum dots sensitized solar cells.
ACS Nano,
2010,
4,
5783-5790 .
Modeling High-Efficiency Quantum Dot Sensitized Solar Cells.