All-MXene thermoelectric nanogenerator

MXenes have been widely investigated in energy storage, electromagnetic interference shielding, sensing, electronic, and photonic applications. Some MXenes have been predicted to have outstanding thermoelectric (TE) properties, but relevant explorations are very limited. Herein, the TE performance of Mo2TiC2Tx and Nb2CTx MXenes are carefully controlled into n- and p-type, respectively, by organic molecule intercalation and thermal treatment. Optimized Mo2TiC2Tx and Nb2CTx MXenes show TE power factor of 13.26 and 11.06 mW m/K2 at room temperature, respectively. Combing Ti3C2Tx MXene as a contact electrode owing to its high electrical conductivity (up to 8000 S/cm in this study), we have successfully designed and fabricated all-MXene flexible and integrated TE nanogenerators. The MXene TE nanogenerator was fabricated using 20 p-n units and could produce an output voltage and power of 35.3 mV and 33.9 nW, respectively, under a temperature difference of 30 degrees C. Although this performance is below classical TE materials, it is comparable to other solution-processed two-dimensional materials, being developed for nanogenerators applications.(c) 2022 Elsevier Ltd. All rights reserved.

Automated summary

MXenes have diverse applications and show potential for thermoelectric properties. In this study, Mo2TiC2Tx and Nb2CTx MXenes were controlled to exhibit n-type and p-type properties, respectively. Flexible and integrated thermoelectric nanogenerators were successfully fabricated using MXenes.