Litcius/Paper detail

Thermoelectric Efficiency of Epitaxial GeSn Alloys for Integrated Si-Based Applications: Assessing the Lattice Thermal Conductivity by Raman Thermometry

Davide Spirito, Nils von den Driesch, Costanza Lucia Manganelli, Marvin Hartwig Zoellner, Agnieszka Anna Corley‐Wiciak, Z. Ikonić, T. Stoïca, Detlev Grützmacher, Dan Buca, Giovanni Capellini

2021ACS Applied Energy Materials38 citationsDOI

Abstract

Energy harvesting for Internet of Things applications, comprising sensing, life sciences, wearables, and communications, requires efficient thermoelectric (TE) materials, ideally semiconductors compatible with Si technology. In this work, we investigate the potential of GeSn/Ge layers, a group IV material system, as TE material for low-grade heat conversion. We extract the lattice thermal conductivity, by developing an analytical model based on Raman thermometry and heat transport model, and use it to predict thermoelectric performances. The lattice thermal conductivity decreases from 56 W/(m·K) for Ge to 4 W/(m·K) by increasing the Sn atomic composition to 14%. The bulk cubic Ge0.86Sn0.14 alloy features a TE figure of merit of ZT ∼ 0.4 at 300 K and an impressive 1.04 at 600 K. These values are extremely promising in view of the use of GeSn/Ge layers operating in the typical on-chip temperature range.

Topics & Concepts

Materials scienceThermoelectric effectThermoelectric materialsThermal conductivityRaman spectroscopySemiconductorOptoelectronicsThermoelectric coolingFigure of meritAtmospheric temperature rangeEngineering physicsComposite materialThermodynamicsOpticsPhysicsAdvanced Thermoelectric Materials and DevicesThermal properties of materialsThermal Radiation and Cooling Technologies