Litcius/Paper detail

Nanostructured Inorganic Chalcogenide-Carbon Nanotube Yarn having a High Thermoelectric Power Factor at Low Temperature

Taemin Lee, Jae‐Won Lee, Kyung Tae Park, Jin-Sang Kim, Chong Rae Park, Heesuk Kim

2021ACS Nano44 citationsDOI

Abstract

As power-conversion devices, flexible thermoelectrics that enable conformal contact with heat sources of arbitrary shape are attractive. However, the low performance of flexible thermoelectric materials, which does not exceed those of brittle inorganic counterparts, hampers their practical applications. Herein, we propose inorganic chalcogenide-nanostructured carbon nanotube (CNT) yarns with outstanding power factor at a low temperature using electrochemical deposition. The inorganic chalcogenide-nanostructured CNT yarns exhibit the power factors of 3425 and 2730 μW/(m·K2) at 298 K for the p- and n-type, respectively, which is higher than those of previously reported flexible TE materials. On the basis of excellent performance and geometry advantage of the nanostructured CNT yarn for modular design, all-CNT based thermoelectric generators have been easily fabricated, showing the maximum power densities of 24 and 380 mW/m2 at ΔT = 5 and 20 K, respectively. These results provide a promising strategy for the realization of high-performance flexible thermoelectric materials and devices for flexible/or wearable self-powering systems.

Topics & Concepts

Materials scienceChalcogenideCarbon nanotubeThermoelectric effectThermoelectric materialsNanotechnologyThermoelectric generatorPower factorOptoelectronicsComposite materialPower (physics)Thermal conductivityThermodynamicsQuantum mechanicsPhysicsAdvanced Thermoelectric Materials and DevicesThermal Radiation and Cooling TechnologiesAdvanced battery technologies research