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Complementary n‐Type and p‐Type Graphene Films for High Power Factor Thermoelectric Generators

Travis G. Novak, Jin Kim, Jungmo Kim, Anand P. Tiwari, Hosun Shin, Jae Yong Song, Seokwoo Jeon

2020Advanced Functional Materials61 citationsDOI

Abstract

Abstract Solution‐phase exfoliated graphene has always been an attractive material for flexible thermoelectric applications, but traditional oxidative routes suffer from poor flake quality and a lack of quality doping techniques to make complementary n‐type and p‐type films. Here, it is demonstrated that by changing the adsorbed surfactant during the intercalation‐exfoliation process (polyvinylpyrrolidone for n‐type, pyrenebutyric acid for p‐type), both extremely high electrical conductivity (3010 and 2330 S cm −1 ) and high Seebeck coefficients (53.1 and −45.5 µV K −1 ) can be achieved. The result is that both of these films show remarkable power factors, over 600 µW m −1 K −2 at room temperature, which is over an order of magnitude better than that in previous works demonstrating complementary n‐type and p‐type graphene thermoelectric films. Based on these films, a full all‐graphene thermoelectric device is constructed as a proof of concept, where a peak power of 5.0 nW is recorded at a temperature difference of 50 K.

Topics & Concepts

Materials scienceGrapheneThermoelectric effectDopingExfoliation jointSeebeck coefficientThermoelectric materialsElectrical resistivity and conductivityNanotechnologyOptoelectronicsThermal conductivityComposite materialThermodynamicsElectrical engineeringPhysicsEngineeringAdvanced Thermoelectric Materials and DevicesGraphene research and applications2D Materials and Applications
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