Structure–property relationships are of fundamental importance to develop quantitative models describing charge transport in organic semiconductor based electronic devices, which are among the best candidates for future portable and lightweight electronic applications. While microstructural investigations, such as those based on X-rays, electron microscopy, or polarized optical probes, provide necessary information for the rationalization of transport in macromolecular solids, a general model predicting how charge accommodates within structural maps is not yet available. Therefore, techniques capable of directly monitoring how charge is distributed when injected into a polymer film and how it correlates to structural domains can help fill t...
Self-organization in many solution-processed, semiconducting conjugated polymers results in complex ...
Self-organization in many solution-processed, semiconducting conjugated polymers results in complex ...
Self-organization in many solution-processed, semiconducting conjugated polymers results in complex ...
Structure–property relationships are of fundamental importance to develop quantitative models descri...
Structure–property relationships are of fundamental importance to develop quantitative models descri...
In organic field-effect transistors (OFETs), the morphological structure of the active layer is one ...
In organic field-effect transistors (OFETs), the morphological structure of the active layer is one ...
In organic field-effect transistors (OFETs), the morphological structure of the active layer is one ...
The morphology of the thin active layer is one of the main parameters that influence charge transpor...
The morphology of the thin active layer is one of the main parameters that influence charge transpor...
The morphology of the thin active layer is one of the main parameters that influence charge transpor...
The morphology of the thin active layer is one of the main parameters that influence charge transpor...
We investigated the role of metal/organic semiconductor interface morphology on the charge transport...
The microstructure of conjugated polymers is heterogeneous on the length scale of individual polymer...
Self-organization in many solution-processed, semiconducting conjugated polymers results in complex ...
Self-organization in many solution-processed, semiconducting conjugated polymers results in complex ...
Self-organization in many solution-processed, semiconducting conjugated polymers results in complex ...
Self-organization in many solution-processed, semiconducting conjugated polymers results in complex ...
Structure–property relationships are of fundamental importance to develop quantitative models descri...
Structure–property relationships are of fundamental importance to develop quantitative models descri...
In organic field-effect transistors (OFETs), the morphological structure of the active layer is one ...
In organic field-effect transistors (OFETs), the morphological structure of the active layer is one ...
In organic field-effect transistors (OFETs), the morphological structure of the active layer is one ...
The morphology of the thin active layer is one of the main parameters that influence charge transpor...
The morphology of the thin active layer is one of the main parameters that influence charge transpor...
The morphology of the thin active layer is one of the main parameters that influence charge transpor...
The morphology of the thin active layer is one of the main parameters that influence charge transpor...
We investigated the role of metal/organic semiconductor interface morphology on the charge transport...
The microstructure of conjugated polymers is heterogeneous on the length scale of individual polymer...
Self-organization in many solution-processed, semiconducting conjugated polymers results in complex ...
Self-organization in many solution-processed, semiconducting conjugated polymers results in complex ...
Self-organization in many solution-processed, semiconducting conjugated polymers results in complex ...
Self-organization in many solution-processed, semiconducting conjugated polymers results in complex ...