David Schaefer

TL;DR: In this paper, a concept is introduced, which allows for reduced Coulomb interaction in organic solar cells and as such for enhanced power conversion efficiencies, based on the introduction of electrically insulating, nanostructured high-k materials into the organic matrix, which do not contribute to the charge transport.

TL;DR: In this paper, the fundamental linkage between underwater electric potential (UEP) signatures and their related electric fields above the waterline is investigated, which are introduced as above water electric potential signatures.

TL;DR: In this article, a concept is introduced, which allows for reduced Coulomb interaction in organic solar cells and as such for enhanced power conversion efficiencies, based on the introduction of electrically insulating, nanostructured high-k materials into the organic matrix, which do not contribute to the charge transport, however, effectively enhance the permittivity of the organic active layer and reduce the Coulomb interactions.

TL;DR: In this article, a concept is introduced which allows for reduced Coulomb interaction in organic solar cells and as such for enhanced power conversion efficiencies, based on the introduction of electrically insulating, nanostructured high-k materials into the organic matrix, which do not contribute to the charge carrier transport, but enhance the effective permittivity of the organic active layer.