A Thienoisoindigo-Naphthalene Polymer with Ultrahigh Mobility of 14.4 cm 2 /V·s That Substantially Exceeds Benchmark Values for Amorphous Silicon Semiconductors

By considering the qualitative benefits associated with solution rheology and mechanical properties of polymer semiconductors, it is expected that polymer-based electronic devices will soon enter our daily lives as indispensable elements in a myriad of flexible and ultra low-cost flat panel displays. Despite more than a decade of research focused on designing and synthesizing state-of-the-art polymer semiconductors for improving charge transport characteristics, the current mobility values are still not sufficient for many practical applications. The confident mobility in excess of ∼10 cm(2)/V·s is the most important requirement for enabling the realization of the aforementioned near-future products. We report…

• MO
  Ministry of Knowledge Economy

  Award: 2012T100100740
• MO
  Ministry of Science, ICT and Future Planning

  Awards: 2013M3A6A5073183, 2010-0019408, BK21 Plus 10Z20130011057, 2013R1A1A1A05004475