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Johannes Brendel

JB
Alumnus

Publications in the Thelakkat group

[1] Mueller Christian, , Brendel, M., Ruckdeschel, P., Pflaum, J. & Thelakkat, M. Diketopyrrolopyrroles with a Distinct Energy Level Cascade for Efficient Charge Carrier Generation in Organic Solar Cells. Advanced Energy Materials, pages in print, 2015.
[2] Brendel, J.C., Schmidt, M.M., Hagen, G., Moos, R. & Thelakkat, M. Controlled Synthesis of Water-Soluble Conjugated Polyelectrolytes Leading to Excellent Hole Transport Mobility. Chemistry of Materials, 26(6):1992-1998, 2014.
[3] Hufnagel, M., Muth, M.A., Brendel, J.C. & Thelakkat, M. Fullerene-Grafted Copolymers Exhibiting High Electron Mobility without Nanocrystal Formation. Macromolecules, 47(7):2324-2332, 2014.
[4] Inal, S., Rivnay, J., Leleux, P., Ferro, M., Ramuz, M., Brendel, J.C., Schmidt, M.M., Thelakkat, M. & Malliaras, G.G. A High Transconductance Accumulation Mode Electrochemical Transistor. Advanced Materials, 26(44):7450-7455, 2014.
[5] Brendel, J., Liu, F., Lang, A., Russell, T. & Thelakkat, M. Macroscopic Vertical Alignment of Nanodomains in Thin Films of Semiconductor Amphiphilic Block Copolymers. ACS Nano, 7:6069-6078, 2013.
[6] Brendel, J., Burchardt, H. & Thelakkat, M. Semiconductor amphiphilic block copolymers for hybrid donor–acceptor nanocomposites. J. Mater. Chem., 22:24386-24393, 2012.
[7] Erten-Ela, S., Brendel, J. & Thelakkat, M. Solid-state dye-sensitized solar cells fabricated with nanoporous TiO2 and TPD dyes: Analysis of penetration behavior and I–V characteristics. Chem. Phys. Lett., 510:93-98, 2011.
[8] Brendel, J., Lu, Y. & Thelakkat, M. Polymer templated nanocrystalline titania network for solid state dye sensitized solar cells. J. Mater. Chem., 20:7255-7265, 2010.
[9] Kolemen, S., Cakmak, Y., Erten-Ela, S., Altay, Y., Brendel, J., Thelakkat, M. & Akkaya, E. Solid-State Dye-Sensitized Solar Cells Using Red and Near-IR Absorbing Bodipy Sensitizers. Org. Lett., 12:3812-3815, 2010.