Litcius/Paper detail

Ambient-Stable n-Type Carbon Nanotube/Organic Small-Molecule Thermoelectrics Enabled by Energy Level Control

Taehoon Kim, Jae Gyu Jang, Sung Hyun Kim, Jong‐In Hong

2023ACS Applied Materials & Interfaces12 citationsDOI

Abstract

The stability of n-type organic and hybrid thermoelectric materials is limited in terms of their practical application to p–n parallel thermoelectric devices. We demonstrate the ambient stability of an n-type single-walled carbon nanotube/organic small-molecule (SWNT/OSM) hybrid by deepening the lowest occupied molecular orbital energy level. This hybrid exhibited the best figure of merit (0.032) among n-type SWNT/OSM hybrid thermoelectrics and an enhanced power factor of 291.0 μW m –1 K –2 . Furthermore, we observed that the n-type thermoelectric stability of a hybrid of SWNT and pip containing two N -ethylpiperidinyl groups on both sides of a naphthalenediimide core was retained at 87% over 7 months (220 days) under ambient conditions without encapsulation.

Topics & Concepts

Materials scienceCarbon nanotubeThermoelectric materialsNanotechnologyMoleculeNanotubeEnergy (signal processing)Engineering physicsOrganic chemistryComposite materialThermal conductivityStatisticsMathematicsChemistryEngineeringAdvanced Thermoelectric Materials and DevicesThermal properties of materialsThermal Radiation and Cooling Technologies
Ambient-Stable n-Type Carbon Nanotube/Organic Small-Molecule Thermoelectrics Enabled by Energy Level Control | Litcius