Doping Engineering Enables Highly Conductive and Thermally Stable n-Type Organic Thermoelectrics with High Power Factor

Volume: 2, Issue: 9, Pages: 6664 - 6671
Published: Aug 19, 2019
Abstract
This work exploits the scope of doping engineering as an enabler for better-performing and thermally stable n-type organic thermoelectrics. A fullerene derivative with polar triethylene glycol type side chain (PTEG-1) is doped either by “coprocessing doping” with n-type dopants such as n-DMBI and TBAF or by “sequential doping” through thermal deposition of Cs2CO3. Solid-state diffusion of Cs2CO3 appears to dope PTEG-1 in the strongest manner,...
Paper Details
Title
Doping Engineering Enables Highly Conductive and Thermally Stable n-Type Organic Thermoelectrics with High Power Factor
Published Date
Aug 19, 2019
Volume
2
Issue
9
Pages
6664 - 6671
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