Authors: Yingying Liang, Yunke Qin, Jie Chen, Weilong Xing, Ye Zou, Yimeng Sun, Wei Xu, Daoben Zhu
Published: 2019-11-27
Source: Full article
AbstractThree isostructural donor–acceptor complexes DPTTA‐FXTCNQ (X = 1, 2, 4) are investigated experimentally and theoretically. By tuning the number of F atoms in the acceptor molecules, the resulting complexes display a continuous down shift of the valence band maximum, conducting band minimum, and optical bandgap. The majority carriers convert from hole (DPTTA‐F1TCNQ), balanced hole, and electron (DPTTA‐F2TCNQ) to electron (DPTTA‐F4TCNQ). This result shows that band engineering can be realized easily in the donor–acceptor complex systems by tuning the electron affinity of the acceptor. The bandgaps of these three complexes vary from 0.31 to 0.41 eV; this narrow bandgap feature is crucial for achieving high thermoelectric performance and the unintentional doping in DPTTA‐F4TCNQ leads to the effective suppression of the bipolar cancelling effect on the Seebeck coefficient and the highest power factor.