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dc.contributor.advisorChattopadhyay, Kamanio
dc.contributor.authorSireesha, Panithi
dc.date.accessioned2022-03-03T04:35:46Z
dc.date.available2022-03-03T04:35:46Z
dc.date.submitted2021
dc.identifier.urihttps://etd.iisc.ac.in/handle/2005/5647
dc.description.abstractThe basic concept of thermoelectricity is the conversion of dissipated heat into electricity with applications in the areas such as automobile engineering, refrigerating coolants, satellites, etc. The thermoelectric figure of merit,zT=((S^2 σ)/κ) T, is the defining factor for thermoelectric materials, which attributes to the power factor (P=S2σ, σ-electrical conductivity S-Seebeck coefficient) enhancement and thermal conductivity reduction. Power factor can be improved by bandgap tuning and carrier concentration, whereas thermal conductivity can be reduced through grain size reduction, point defects, and dislocations. These can be achieved experimentally through microstructural engineering and processing. Microstructure can be tuned by varying volume fraction, morphology variation, inclusion of nano, 2D structures etc. Fine-tuning of microstructure is one of the key factors in improving thermoelectric properties. Creating interfaces through incorporation of multiple phases, self-organised eutectic composites are efficient ways to reduce thermal conductivity. In this thesis, we have chosen to investigate the thermoelectric properties of Sn-Te based alloys with microstructural studies which can be divided into three parts as follows. The synthesis and properties of thermoelectric off eutectic and eutectic composites of the Sn-Te binary system are presented in the preliminary part of the investigation. Hypo eutectic alloys are SnTe rich, and hyper eutectic alloys are towards the phase diagram’s Te rich side with Te and SnTe phase mixture. Interfaces between SnTe and Te phases and the presence of primary and eutectic phase mixture do affect the mobility of charge carriers giving rise to optimized electrical transport properties. The second part consists of the influence of morphological variation of a eutectic composite of SnTe and Te on thermoelectric properties. Microstructural variations obtained by solidifying eutectic composite via furnace, air, oil, water, and (water + glycol) were characterized to understand the microstructural evolution. Novel result of transformation from rod-lamellar was revealed in the eutectic microstructures. Thermoelectric potential of these alloys were explored. Various factors contributing to increased power factor and decreased thermal conductivity was analysed. The effect of cooling rate on overall Figure of merit (FOM) was studied. The third part consists of the third element addition to the Sn-Te binary system. Upon the addition of Sb to the Sn-Te system, ternary eutectics have displayed improved electron transport properties. Contribution of each phase present in the alloy towards the improvement of electron transport properties was explored. Further due to microstructural complexity, thermal conductivity is expected to be reduced. This work consists of robust microstructural modification along with improving thermoelectric properties.en_US
dc.language.isoen_USen_US
dc.rightsI grant Indian Institute of Science the right to archive and to make available my thesis or dissertation in whole or in part in all forms of media, now hereafter known. I retain all proprietary rights, such as patent rights. I also retain the right to use in future works (such as articles or books) all or part of this thesis or dissertationen_US
dc.subjectSn-Te alloysen_US
dc.subjectCooling ratesen_US
dc.subjectTernary eutecticsen_US
dc.subjectThermoelectricsen_US
dc.subject.classificationResearch Subject Categories::TECHNOLOGY::Materials scienceen_US
dc.titleInvestigation of thermoelectric properties of Sn-Te based alloys with microstructural studiesen_US
dc.typeThesisen_US
dc.degree.namePhDen_US
dc.degree.levelDoctoralen_US
dc.degree.grantorIndian Institute of Scienceen_US
dc.degree.disciplineEngineeringen_US


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