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Thermoelectric materials hold tremendous promise for advances in fundamental science and practical applications; particularly for robust electricity generation in extreme and remote environments. However, for most materials, the energy conversion efficiency is limited by the proportionality between the electrical and thermal conductivities and small values of the Seebeck coefficient for metals. Despite these limitations, promising thermoelectric properties have been reported forsome Yb-based heavy-fermion compounds. In this dissertation, I explore the hypothesis that the thermoelectric properties of those family compounds, due to their novel structure with exotic electronic and magnetic properties, can be further enhanced through chemical substitution. Additionally, I elaborate on the manufacturability of thermoelectric devices using these compounds and their possible application for cooling probes.
condensed matter, crystal growth, energy materials, heavy fermions, sustainable energy, thermoelectricity
Date of Defense
March 22, 2024.
Submitted Note
A Dissertation submitted to the Department of Mechanical Engineering in partial fulfillment of the requirements for the degree of Doctor of Philosophy.
Bibliography Note
Includes bibliographical references.
Advisory Committee
Juan Ordonez, Professor Directing Dissertation; Laura Greene, University Representative; Wei Guo, Committee Member; Patrick Hollis, Committee Member; Ryan Baumbach, Committee Member; Kaya Wei, Committee Member.
Publisher
Florida State University
Identifier
GaleanoCabral_fsu_0071E_18659
Galeano-Cabral, J. R. (2024). Performance Enhancement of Thermoelectric Devices: Synthesis of Novel Materials and Thermal Evaluations. Retrieved from https://purl.lib.fsu.edu/diginole/GaleanoCabral_fsu_0071E_18659