Monolithic carbon nanotube film thermoelectric generator.

Abstract

The design and development of a thermoelectric generator (TEG) with minimal internal resistance is crucial for achieving high output power in self-powered wearable technologies. This work presents a novel flexible TEG comprising single-walled carbon nanotube (SWCNT) thermoelements, fabricated through a sacrificial molding process. Different from the traditional TEG structural design, our TEG's {p}-and {n}-type SWCNT thermoelements are formed monolithically without any interconnections. This integration eliminates the presence of internal resistance within the device. Equipped with eight pairs of the {p}-and {n}-type SWCNT thermoelements, the TEG exhibits an open-circuit voltage ( {V}_{text {oc}}{)} of 21.82 mV and an internal resistance of sim 16.56~Omega & , corresponding to a maximum output power of approximately 7.19~mu text{W} at a temperature gradient (Delta {T}) of 50 °C. Additionally, the TEG demonstrated its capability to harvest energy from a fingertip, generating a {V}_{text {oc}} of around 2.58 mV at a Delta {T} of 8.8 °C. These results highlight the potential of the monolithically formed SWCNT thermoelements for achieving high-power density TEGs.