Litcius/Paper detail

Limitations of the Tauc Plot Method

Julian Klein, Laura Kampermann, Benjamin Mockenhaupt, Malte Behrens, Jennifer Strunk, G. Bacher

2023Advanced Functional Materials524 citationsDOIOpen Access PDF

Abstract

Abstract The Tauc plot is a method originally developed to derive the optical gap of amorphous semiconductors such as amorphous germanium or silicon. By measuring the absorption coefficient α ( hν ) and plotting versus photon energy hν , a value for the optical gap ( Tauc gap ) is determined. In this way non‐direct optical transitions between approximately parabolic bands can be examined. In the last decades, a modification of this method for (poly‐) crystalline semiconductors has become popular to study direct and indirect interband transitions. For this purpose, ( ahν ) n ( n = , 2) is plotted against hν to determine a value of the electronic bandgap . Due to the ease of performing UV–vis measurements, this method has nowadays become a standard to analyze various (poly‐) crystalline solids, regardless of their different electronic structure. Although this leads partially to widely varying values of the respective bandgap of nominally identical materials, there is still no study that critically questions which peculiarities in the electronic structure prevent a use of the Tauc plot for (poly‐) crystalline solids and to which material classes this applies. This study aims to close this gap by discussing the Tauc plot and its limiting factors for exemplary (poly‐) crystalline solids with different electronic structures.

Topics & Concepts

Band gapMaterials scienceAmorphous solidSemiconductorGermaniumDirect and indirect band gapsAttenuation coefficientPlot (graphics)Electronic structureSiliconAbsorption edgeOpticsCondensed matter physicsOptoelectronicsCrystallographyPhysicsStatisticsMathematicsChemistryThin-Film Transistor TechnologiesSilicon Nanostructures and PhotoluminescenceGlass properties and applications