Citation
Gibbs, Zachary Michael (2015) Band Engineering in Thermoelectric Materials Using Optical, Electronic, and Ab-Initio Computed Properties. Dissertation (Ph.D.), California Institute of Technology. doi:10.7907/Z9XS5S9Z. https://resolver.caltech.edu/CaltechTHESIS:05142015-004120562
Abstract
Thermoelectric materials have demanded a significant amount of attention for their ability to convert waste heat directly to electricity with no moving parts. A resurgence in thermoelectrics research has led to significant enhancements in the thermoelectric figure of merit, zT, even for materials that were already well studied. This thesis approaches thermoelectric zT optimization by developing a detailed understanding of the electronic structure using a combination of electronic/thermoelectric properties, optical properties, and ab-initio computed electronic band structures. This is accomplished by applying these techniques to three important classes of thermoelectric materials: IV-VI materials (the lead chalcogenides), Half-Heusler’s (XNiSn where X=Zr, Ti, Hf), and CoSb3 skutterudites.
In the IV-VI materials (PbTe, PbSe, PbS) I present a shifting temperature-dependent optical absorption edge which correlates well to the computed ab-initio molecular dynamics result. Contrary to prior literature that suggests convergence of the primary and secondary bands at 400 K, I suggest a higher convergence temperature of 700, 900, and 1000 K for PbTe, PbSe, and PbS, respectively. This finding can help guide electronic properties modelling by providing a concrete value for the band gap and valence band offset as a function of temperature.
Another important thermoelectric material, ZrNiSn (half-Heusler), is analyzed for both its optical and electronic properties; transport properties indicate a largely different band gap depending on whether the material is doped n-type or p-type. By measuring and reporting the optical band gap value of 0.13 eV, I resolve the discrepancy in the gap calculated from electronic properties (maximum Seebeck and resistivity) by correlating these estimates to the electron-to-hole weighted mobility ratio, A, in narrow gap materials (A is found to be approximately 5.0 in ZrNiSn).
I also show that CoSb3 contains multiple conduction bands that contribute to the thermoelectric properties. These bands are also observed to shift towards each other with temperature, eventually reaching effective convergence for T>500 K. This implies that the electronic structure in CoSb3 is critically important (and possibly engineerable) with regards to its high thermoelectric figure of merit.
Item Type: | Thesis (Dissertation (Ph.D.)) | |||||||||||||||||||||||||||
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Subject Keywords: | Thermoelectrics, band engineering, absorption edge, Seebeck | |||||||||||||||||||||||||||
Degree Grantor: | California Institute of Technology | |||||||||||||||||||||||||||
Division: | Chemistry and Chemical Engineering | |||||||||||||||||||||||||||
Major Option: | Chemical Engineering | |||||||||||||||||||||||||||
Thesis Availability: | Public (worldwide access) | |||||||||||||||||||||||||||
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Defense Date: | 11 May 2015 | |||||||||||||||||||||||||||
Non-Caltech Author Email: | zachary.m.gibbs (AT) gmail.com | |||||||||||||||||||||||||||
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Record Number: | CaltechTHESIS:05142015-004120562 | |||||||||||||||||||||||||||
Persistent URL: | https://resolver.caltech.edu/CaltechTHESIS:05142015-004120562 | |||||||||||||||||||||||||||
DOI: | 10.7907/Z9XS5S9Z | |||||||||||||||||||||||||||
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Default Usage Policy: | No commercial reproduction, distribution, display or performance rights in this work are provided. | |||||||||||||||||||||||||||
ID Code: | 8859 | |||||||||||||||||||||||||||
Collection: | CaltechTHESIS | |||||||||||||||||||||||||||
Deposited By: | Zachary Gibbs | |||||||||||||||||||||||||||
Deposited On: | 27 May 2015 21:40 | |||||||||||||||||||||||||||
Last Modified: | 04 Oct 2019 00:07 |
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