Titlebook: Novel Thermoelectric Materials and Device Design Concepts; Sergey Skipidarov,Mikhail Nikitin Book 2019 Springer Nature Switzerland AG 2019

安慰

Investigating the Performance of Bismuth-Antimony Tellurideelluride (Bi.Te.).(Sb.Te.). ternary alloys..It has been shown by experiments that using in TEGs of .-type legs made of (Bi.Te.).(Sb.Te.). material with orientation alternative to traditional, i.e., when cleavage planes of legs are transverse to heat flux direction, results in increasing in thermoele

RAGE

記憶

Tin Sulfide: A New Nontoxic Earth-Abundant Thermoelectric Materialt, which indicates that it has a potential application in the area of waste heat recovery. In this chapter, we elucidate the origin of low thermal conductivity by analysis of the crystal structure and concentration of charge carriers and unveil the reason for large Seebeck coefficient found in .-typ

extemporaneous

SnTe-Based Thermoelectricsn to be one of the highest. However, the concern on toxicity of Pb hinders its large-scale terrestrial applications, which motivates numerous efforts recently to be put on advancing its alternative analogue SnTe. To be as thermoelectrically efficient as that of .-type PbTe, concepts for ZT enhanceme

PON

圓桶

High Thermoelectric Performance due to Nanoprecipitation, Band Convergence, and Interface Potential mong thermoelectric (TE) materials, PbTe?PbSe?PbS quaternary alloys and composites are promising candidates for thermoelectric power generation applications in mid-temperature operating range from 500 to ~850?K. On the other hand, the thermoelectric performance of quaternary alloys and composites is

食道

Multicomponent Chalcogenides with Diamond-Like Structure as Thermoelectrics diamond-like chalcogenides (MDLCs), such as CuInTe., Cu.SnSe., Cu.SbSe. and Cu.ZnSnSe., have attracted intensive attention for energy conversion as promising thermoelectric (TE) materials in recent years. This chapter provides an overview of research on MDLCs in TE field. Commencing with the crysta

mechanism

1-2-2 Layered Zintl-Phase Thermoelectric Materialsssess very low lattice thermal conductivity . that benefits from its complex crystal structure. Among all reported Zintl-phase thermoelectric materials, 1-2-2 layer Zintl compounds (e.g., CaZn.Sb., Mg.Sb., YbMg.Bi., etc.) have been extensively studied. In this chapter, the thermoelectric properties

迅速飛過(guò)

Skutterudites: Progress and Challengeseved high-quality thermoelectric (TE) .- and .-type leg materials with remarkably high figure-of-merit ZT, forming the basis for large-scale production and application in thermoelectric power generation coupled with waste heat recovery..We will cover the most important steps within these almost 200?

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