Bismuth Interfacial Doping of Organic Small Molecules for High Performance n-type Thermoelectric Materials.
Dazhen HuangChao WangYe ZouXingxing ShenYaping ZangHongguang ShenXike GaoYuanping YiWei XuChong-An DiDaoben ZhuPublished in: Angewandte Chemie (International ed. in English) (2016)
Development of chemically doped high performance n-type organic thermoelectric (TE) materials is of vital importance for flexible power generating applications. For the first time, bismuth (Bi) n-type chemical doping of organic semiconductors is described, enabling high performance TE materials. The Bi interfacial doping of thiophene-diketopyrrolopyrrole-based quinoidal (TDPPQ) molecules endows the film with a balanced electrical conductivity of 3.3 S cm(-1) and a Seebeck coefficient of 585 μV K(-1) . The newly developed TE material possesses a maximum power factor of 113 μW m(-1) K(-2) , which is at the forefront for organic small molecule-based n-type TE materials. These studies reveal that fine-tuning of the heavy metal doping of organic semiconductors opens up a new strategy for exploring high performance organic TE materials.