Litcius/Paper detail

Flexible power generators by Ag2Se thin films with record-high thermoelectric performance

Dong Yang, Xiao‐Lei Shi, Meng Li, Mohammad Nisar, Adil Mansoor, Shuo Chen, Yuexing Chen, Fu Li, Hongli Ma, Guangxing Liang, Xianghua Zhang, Wei‐Di Liu, Ping Fan, Zhuanghao Zheng, Zhi‐Gang Chen

2024Nature Communications224 citationsDOIOpen Access PDF

Abstract

Abstract Exploring new near-room-temperature thermoelectric materials is significant for replacing current high-cost Bi 2 Te 3 . This study highlights the potential of Ag 2 Se for wearable thermoelectric electronics, addressing the trade-off between performance and flexibility. A record-high ZT of 1.27 at 363 K is achieved in Ag 2 Se-based thin films with 3.2 at.% Te doping on Se sites, realized by a new concept of doping-induced orientation engineering. We reveal that Te-doping enhances film uniformity and (00 l )-orientation and in turn carrier mobility by reducing the (00 l ) formation energy, confirmed by solid computational and experimental evidence. The doping simultaneously widens the bandgap, resulting in improved Seebeck coefficients and high power factors, and introduces Te Se point defects to effectively reduce the lattice thermal conductivity. A protective organic-polymer-based composite layer enhances film flexibility, and a rationally designed flexible thermoelectric device achieves an output power density of 1.5 mW cm −2 for wearable power generation under a 20 K temperature difference.

Topics & Concepts

Power (physics)Seebeck coefficientComputer scienceThermoelectric effectThermoelectric generatorMaterials scienceNanotechnologyPhysicsThermodynamicsAdvanced Thermoelectric Materials and DevicesChalcogenide Semiconductor Thin FilmsThermal Radiation and Cooling Technologies