Organic Solar Cells: On the Efficiency of Charge Transfer State Splitting in Polymer:Fullerene Solar Cells (Adv. Mater. 16/2014) — Steve Albrecht (2014) | RDL Network
Organic Solar Cells: On the Efficiency of Charge Transfer State Splitting in Polymer:Fullerene Solar Cells (Adv. Mater. 16/2014)
Article 2014 en
Authors
SA
Steve Albrecht
KV
Koen Vandewal
JT
John R. Tumbleston
Abstract
1 min read
A so called “energy river” originates in the active layer of a bulk-heterojunction solar cell as described in work by D. Neher, K. Vandewal, and co-workers on page 2533. This river contains polymer chains and cools down from its hot origin to a cold front. The riverbank is created by “fullerene walls” with different heights. Flashes create hot electrons in the energy river. These electrons need to decrease in temperature during their refrigerating evolution in the river. The cold electrons on the right side cannot escape the river, hidden by the big fullerene wall, and get lost. The cold electrons on the left side are the “good guys”. They are able to splash out of the river and generate electrical power.
Steve Albrecht, Koen Vandewal, John R. Tumbleston, Florian S. U. Fischer, Jessica D. Douglas, Jean Mj Frechet, Sabine Ludwigs, Harald Ade, Alberto Salleo, Dieter Neher
Kristin Schmidt, Christopher J. Tassone, Jeremy R. Niskala, Alan T. Yiu, Olivia P. Lee, Thomas Weiß, Cheng Wang, Jean Mj Frechet, Pierre M. Beaujuge, Michael F. Toney
Eric T. Hoke, Koen Vandewal, Jonathan A. Bartelt, William R. Mateker, Jessica D. Douglas, Rodrigo Noriega, Kenneth R. Graham, Jean Mj Frechet, Alberto Salleo, Michael D. McGehee
Michiel L. Petrus, Johannes Schlipf, Cheng Li, T.P. Gujar, Nadja Giesbrecht, Peter Müller‐Buschbaum, Mukundan Mukundan Thelakkat, Thomas Bein, Sven Hüttner, Pablo Docampo
.webp){kind=small}
Discussion(0)
No comments yet. Be the first to comment.