Add to ORKGConjugated polymers enable the production of flexible semiconductor devices that can be processed from solution at low temperatures. Over the past 25 years, device performance has improved greatly as a wide variety of molecular structures have been studied. However, one major limitation has not been overcome; transport properties in polymer films are still limited by pervasive conformational and energetic disorder. This not only limits the rational design of materials with higher performance, but also prevents the study of physical phenomena associated with an extended π-electron delocalization along the polymer backbone. Here we report a comparative transport study of several high-mobility conjugated polymers by field-effect-modulated Seeb...
International audienceConjugated polymers came to an unprecedented epoch that the charge transport i...
Charge transport in π-conjugated polymers is characterised by a strong degree of disorder in both th...
Recent development of donor–acceptor (D–A) structure copolymers has led to the remarkable enhancemen...
Charge transport in conjugated polymer semiconductors has traditionally been thought to be limited t...
Charge transport in π-conjugated polymers is characterized by a strong degree of disorder in both th...
Conjugated polymers and molecular semiconductors are emerging as a viable semiconductor technology i...
Charge transport in π-conjugated polymers is characterized by a strong degree of disorder in both th...
Disordered or even seemingly amorphous, donor-acceptor type, conjugated copolymers with high charge-...
Backbone rigidity of conjugated polymers is suggested to play an essential role in realizing high-mo...
International audienceConjugated polymers and molecular semiconductors are emerging as a viable semi...
Self-organization in many solution-processed, semiconducting conjugated polymers results in complex ...
Doping is one of the most important methods to control charge carrier concentration in semiconductor...
Charge transport in -conjugated polymers is characterised by a strong degree of disorder in both the...
This work is focused on understanding how molecular-level structural control can improve charge carr...
The booming of classic semicrystalline polymers has led to the assumption and thus design guidelines...
International audienceConjugated polymers came to an unprecedented epoch that the charge transport i...
Charge transport in π-conjugated polymers is characterised by a strong degree of disorder in both th...
Recent development of donor–acceptor (D–A) structure copolymers has led to the remarkable enhancemen...
Charge transport in conjugated polymer semiconductors has traditionally been thought to be limited t...
Charge transport in π-conjugated polymers is characterized by a strong degree of disorder in both th...
Conjugated polymers and molecular semiconductors are emerging as a viable semiconductor technology i...
Charge transport in π-conjugated polymers is characterized by a strong degree of disorder in both th...
Disordered or even seemingly amorphous, donor-acceptor type, conjugated copolymers with high charge-...
Backbone rigidity of conjugated polymers is suggested to play an essential role in realizing high-mo...
International audienceConjugated polymers and molecular semiconductors are emerging as a viable semi...
Self-organization in many solution-processed, semiconducting conjugated polymers results in complex ...
Doping is one of the most important methods to control charge carrier concentration in semiconductor...
Charge transport in -conjugated polymers is characterised by a strong degree of disorder in both the...
This work is focused on understanding how molecular-level structural control can improve charge carr...
The booming of classic semicrystalline polymers has led to the assumption and thus design guidelines...
International audienceConjugated polymers came to an unprecedented epoch that the charge transport i...
Charge transport in π-conjugated polymers is characterised by a strong degree of disorder in both th...
Recent development of donor–acceptor (D–A) structure copolymers has led to the remarkable enhancemen...