Abstract
Thermoelectric energy conversion from waste heat sources is expected to play a crucial role in determining the world energy landscape through efficient thermal energy utilization and management. The thermoelectric performance of a material critically depends on its electrical conductivity and Seebeck coefficient. The electronic structure plays a pivotal role in determining both these parameters, electrical conductivity and Seebeck coefficient, in a material and, therefore, in turn, dominantly controls the material’s thermoelectric performance. For example, a common feature among most of the known high-performance thermoelectric materials is that they are heavily doped degenerate semiconductors and have large band degeneracy. Therefore, it is essential to improve our understanding and manipulation capabilities of the electronic structure in a material. Intensive research on thermoelectric materials has led to various novel electronic structure modulation strategies, such as valence band convergence, resonant level, and employment of various low dimensional electronic features. These strategies play a critical role in the recent developments of various high-performance thermoelectric materials, such as PbTe, SnTe, SnSe, and GeTe. In this Perspective, we have discussed various electronic structure modulation strategies and their recent developments with a brief background of the underlying ideas.
Highlights
The increasing global energy demand, decreasing fossil fuel reserve, and increasing environmental pollution associated with the combustion of fossil fuels force us to find efficient and sustainable energy generation techniques and improve energy management
These general criteria of energy dependences of the electrical conductivity and Seebeck coefficient are very important to consider for designing high performance thermoelectric materials, and as we will see in Sec
The resonant level scenario concerns the first term on the right-hand side of Eq (16), which indicates that the Seebeck coefficient can be increased if there is a strong energy dependence in the electronic density of states
Summary
The increasing global energy demand, decreasing fossil fuel reserve, and increasing environmental pollution associated with the combustion of fossil fuels force us to find efficient and sustainable energy generation techniques and improve energy management. Thermoelectric materials with high zT values (the highest obtained zT value in a bulk material is still
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