Organic Electronics


Organic solar cell. © C. Bruder BASF / MPI-FKF

The physics of organic solar cells und organic light emitting diodes has been explored in a common work with the company BASF SE in Ludwigshafen, Germany.


Efficient organic tandem cell combining a solid state dye-sensitized and a vacuum deposited bulk heterojunction solar cell
I. Bruder, M. Karlsson, F. Eickemeyer, J. Hwang, P. Erk, A. Hagfeldt, J. Weis, N. Pschirer
Solar Energy Materials and Solar Cells 93, 1896 (2009)

What determines the performance of metal phthalocyanines (MPc, M = Zn, Cu, Ni, Fe) in organic heterojunction solar cells? A combined experimental and theoretical investigation
I. Bruder, J. Schoeneboom, R. Dinnebier, A. Ojala, S. Schaefer, R. Sens, P. Erk, J. Weis
Organic Electronics 11, 377 (2010) 

Theoretical and experimental investigation on the influence of the molecular polarizability of novel zinc phthalocyanine derivatives on the open circuit voltage of organic hetero-junction solar cells
I. Bruder, A. Ojala, C. Lennartz, S. Sundarraj, J. Schoeneboom, R. Sens, J. Hwang, P. Erk, J. Weis
Solar Energy Materials and Solar Cells 94, 310 (2010)

A novel p-dopant with low diffusion tendency and its application to organic light-emitting diodes
I. Bruder, S. Watanabe, J. Qu, I,.B. Mueller, R. Kopecek, J. Hwang, J. Weis, N. Langer
Organic Electronics 11, 589 (2010)


Organic solar cells: Correlation between molecular structure, morphology and device performance
Ingmar Bruder, Dissertation, Universität Stuttgart (2010)

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