Zhifan Ke1,Ashkan Abtahi1,Jinhyo Hwang1,Ke Chen1,Jagrity Chaudhary1,Inho Song1,Kuluni Perera1,Kyle Baustert2,Kenneth Graham2,Jianguo Mei1
Purdue University1,University of Kentucky2
Zhifan Ke1,Ashkan Abtahi1,Jinhyo Hwang1,Ke Chen1,Jagrity Chaudhary1,Inho Song1,Kuluni Perera1,Kyle Baustert2,Kenneth Graham2,Jianguo Mei1
Purdue University1,University of Kentucky2
The search for solution-processable, environmentally and thermally stable conducting polymers is warranted, due to their applications in displays, solar cells, touch screens, and emerging printed electronics. Here, we report an n-doped organic conductive ink from oxidative polymerization. The resulting conductive polymer thin films exhibit low sheet resistance with high optical transmittance. This conductive polymer can function as transparent conductors and electrodes in electrochemical devices.