Characterization of Lorenz number with Seebeck coefficient measurement
California Institute of Technology · Samsung (South Korea)
Abstract
In analyzing zT improvements due to lattice thermal conductivity (κL) reduction, electrical conductivity (σ) and total thermal conductivity (κTotal) are often used to estimate the electronic component of the thermal conductivity (κE) and in turn κL from κL = ∼ κTotal − LσT. The Wiedemann-Franz law, κE = LσT, where L is Lorenz number, is widely used to estimate κE from σ measurements. It is a common practice to treat L as a universal factor with 2.44 × 10−8 WΩK−2 (degenerate limit). However, significant deviations from the degenerate limit (approximately 40% or more for Kane bands) are known to occur for non-degenerate semiconductors where L converges to 1.5 × 10−8 WΩK−2 for acoustic phonon scattering. The…
Citation impact
- FWCI
- 39.73
- Percentile
- 100%
- References
- 26
Authors
5- HKHyun‐Sik KimCorresponding
California Institute of Technology, Samsung (South Korea)
- ZMZachary M. Gibbs
California Institute of Technology, Samsung (South Korea)
- YTYinglu Tang
California Institute of Technology, Samsung (South Korea)
- HWHeng Wang
California Institute of Technology, Samsung (South Korea)
- GJG. Jeffrey Snyder
California Institute of Technology, Samsung (South Korea)
Topics & keywords
- Seebeck coefficient
- Degenerate energy levels
- Condensed matter physics
- Thermal conductivity
- Scattering
- Thermoelectric effect
- Wiedemann–Franz law
- Degenerate semiconductor