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

軍械

書目名稱Novel Thermoelectric Materials and Device Design Concepts影響因子(影響力)




書目名稱Novel Thermoelectric Materials and Device Design Concepts影響因子(影響力)學(xué)科排名




書目名稱Novel Thermoelectric Materials and Device Design Concepts網(wǎng)絡(luò)公開度




書目名稱Novel Thermoelectric Materials and Device Design Concepts網(wǎng)絡(luò)公開度學(xué)科排名




書目名稱Novel Thermoelectric Materials and Device Design Concepts被引頻次




書目名稱Novel Thermoelectric Materials and Device Design Concepts被引頻次學(xué)科排名




書目名稱Novel Thermoelectric Materials and Device Design Concepts年度引用




書目名稱Novel Thermoelectric Materials and Device Design Concepts年度引用學(xué)科排名




書目名稱Novel Thermoelectric Materials and Device Design Concepts讀者反饋




書目名稱Novel Thermoelectric Materials and Device Design Concepts讀者反饋學(xué)科排名

membrane

of new ideas and results to react effectively to the challen.This book presents and facilitates the interchange of new research and development results concerned with hot topics in thermoelectric generators (TEGs) research, development and production. Topics include prospective thermoelectric materi

Calibrate

Investigating the Performance of Bismuth-Antimony Tellurideh orientation alternative to traditional, i.e., when cleavage planes of legs are transverse to heat flux direction, results in increasing in thermoelectric efficiency by an average of 25% in the temperature range from 100?°C to 350?°C.

CODA

Half-Heusler Thermoelectricsriety of compounds. Here we summarize the recent development of TE properties of HH compounds with special emphasis on the experimentally demonstrated strategies such as alloying effects, energy filter effects, nanostructuring, band convergence, etc. that were beneficial to improve TE performances.

有害

Anguish

SnSe: Breakthrough or Not Breakthrough? both single-crystalline and polycrystalline SnSe, highlighting in particular the controversy regarding thermal properties of single crystals and important points that remain to be investigated to determine whether or not the (re)discovery of SnSe may be considered as a breakthrough in thermoelectricity.

Conquest

Tin Sulfide: A New Nontoxic Earth-Abundant Thermoelectric Materiale doped samples based on band edge morphology examination. Finally, we achieve the highest value of dimensionless figure of merit ZT?~?1.1 at 870?K for .-type highly doped SnS single crystal samples due to intrinsic high mobility of charge carriers in SnS single crystal, which holds a potential for application in the area of waste heat recovery.

BLUSH

慷慨援助

裂口

https://doi.org/10.1007/978-3-030-12057-3Thermoelectric Generators; Thermoelectric Materials; Thermal Degradation; Mechanical Degradation; Organi