Litcius/Paper detail

High Carrier Mobility and Promising Thermoelectric Module Performance of N‐Type PbSe Crystals

Siqi Wang, Yi Wen, Yingcai Zhu, Ziyuan Wang, Dongrui Liu, Junqing Zheng, Shaoping Zhan, Hongyao Xie, Zhen‐Hua Ge, Xiang Gao, Qian Cao, Cheng Chang, Li‐Dong Zhao

2024Small28 citationsDOI

Abstract

Abstract The scarcity of Te hampers the widespread use of Bi 2 Te 3 ‐based thermoelectric modules. Here, the thermoelectric module potential of PbSe is investigated by improving its carrier mobility. Initially, large PbSe crystals are grown with the temperature gradient method to mitigate grain boundary effects on carrier transport. Subsequently, light doping with <1mole‰ halogens (Cl/Br/I) increases room‐temperature carrier mobility to ~1600 cm 2 V −1 s −1 , achieved by reducing carrier concentration compared to traditional heavy doping. Crystal growth design and light doping enhance carrier mobility without affecting effective mass, resulting in a high power factor ~40 µW cm −1 K −2 in PbSe‐Cl/Br/I crystals at 300 K. Additionally, Cl/Br/I doping reduces thermal conductivity and bipolar diffusion, leading to significantly lower thermal conductivity at high temperature. Enhanced carrier mobility and suppressed bipolar effect boost ZT values across the entire temperature range in n‐type PbSe‐Cl/Br/I crystals. Specifically, ZT values of PbSe‐Br crystal reach ~0.6 at 300 K, ~1.2 at 773 K, and the average ZT ( ZT ave ) reaches ~1.0 at 300–773 K. Ultimately, ~5.8% power generation efficiency in a PbSe single leg with a maximum temperature cooling difference of 40 K with 7‐pair modules is achieved. These results indicate the potential for cost‐effective and high‐performance thermoelectric cooling modules based on PbSe.

Topics & Concepts

Materials scienceThermoelectric effectElectron mobilityDopingThermal conductivityOptoelectronicsCarrier lifetimeCrystal (programming language)Atmospheric temperature rangeGrain boundarySeebeck coefficientAnalytical Chemistry (journal)SiliconChemistryMicrostructureComposite materialThermodynamicsPhysicsProgramming languageChromatographyComputer scienceAdvanced Thermoelectric Materials and DevicesPerfectionism, Procrastination, Anxiety StudiesPerovskite Materials and Applications