Journal
SUSTAINABLE ENERGY & FUELS
Volume 7, Issue 1, Pages 172-180Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/d2se01295b
Keywords
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Funding
- National Natural Science Foundation of China
- Fundamental Research Funds for the Central Universities
- [51772016]
- [XK1802-2]
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A simple method of preparing high-performance, stable, and flexible thermoelectric materials without using small-molecule dopants has been developed. The composite films obtained through solvent-induced strategy show a high power factor due to the induction effect and charge transfer effect. The temperature effect on the thermoelectric performance of PANI-based nanocomposites has been investigated through in situ structural analysis.
Preparing high-performance, stable, and flexible thermoelectric materials via a simple method is significant for promoting practical applications of the thermoelectric system. Herein, a facile solvent-induced strategy has been developed to prepare a polyaniline (PANI)/single-walled carbon nanotube (SWCNT) flexible film without using any small-molecule dopants, which are relatively unstable. For the N,N-dimethylformamide (DMF) solvent-induced composite films, a high power factor of 207.3 mu W m(-1) K-2 has been obtained at room temperature when the content of SWCNTs is 90 wt% due to the induction effect of the SWCNTs and charge transfer effect between PANI and the SWCNTs. Furthermore, the effect of temperature on TE performance in the PANI-based nanocomposites has been investigated via in situ structural analysis. A prototype device with eight pieces of PANI/SWCNT films connected by silver wires has been fabricated and its maximum output power reaches 1628 mu W at a temperature difference of 66.8 K, which corresponds to a normalized maximum output power density of 27.4 mu W m(-1) K-2. This work imparts a deeper understanding of PANI-based nanocomposites and has great significance in practical applications for wearable energy harvesting.
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