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MXene Nanosheet/Organics Superlattice for Flexible Thermoelectrics

Zhiwen Wang, Mengran Chen, Zhining Cao, Jia Liang, Zhenguo Liu, Yuxue Xuan, Lin Pan, Kafil M. Razeeb, Yifeng Wang, Chunlei Wan, Peng‐an Zong

2022ACS Applied Nano Materials20 citationsDOIOpen Access PDF

Abstract

Two-dimensional (2D) materials with outstanding electronic transport properties are rigid against bending because of strong in-plane covalent bonding and intrinsically flexible because of the lack of out-of-plane constraint and thus are considered to be promising for flexible thermoelectrics (TEs). As a typical 2D material, MXene, however, exhibited a restricted TE performance because the termination groups and guest molecules in MXene nanosheets introduced by acid etching and reassembly deteriorate intra/interflake conduction. This work realized increases in both the carrier concentration and intra/interflake mobility by the construction of a MXene nanosheet/organic superlattice (SL) and composition engineering, attributed to electron injection, intercoupling strengthening, and defect reduction at the nanosheet edges. An electrical conductivity increased by 5 times, to 2.7 × 105 S m–1, led to power factors of up to ∼33 μW m–1 K–2, which is above the state-of-the-art for similar materials, almost by a factor of 10. A TE module comprising four SL film legs could yield 58.6 nW power at a temperature gradient of 50 K. Additionally, both the annealed film and the corresponding module exhibited excellent reproducibility and stability. Our results provide a strategy to tailor the TE performance of 2D-material films through SL construction and composition engineering.

Topics & Concepts

NanosheetMaterials scienceThermoelectric materialsSuperlatticeNanotechnologyElectron mobilityThermoelectric effectOptoelectronicsChemical engineeringComposite materialThermal conductivityPhysicsEngineeringThermodynamicsMXene and MAX Phase Materials2D Materials and ApplicationsAdvanced Thermoelectric Materials and Devices
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