Materials for Thermoelectric Applications
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Transcript of Materials for Thermoelectric Applications
Materials for Thermoelectric Applications
Jorge O. SofoDepartment of Physics,
Department of Materials Science and Engineering,and
Materials Research InstitutePenn State
Thermoelectricians at work
2SZ
Thermoelectricians at work
Conductivity 101
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“The best thermoelectric,” G. D. Mahan and J. O. SofoProc. Nat. Acad. Sci. USA, 93, 7436 (1996)
The “Best” Thermoelectric
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k First Born Approximation• Acoustic phonons• Optical phonons (polar,
non-polar)• Ionized impurities• Inter-valley scattering• …
C. Ambrosch-Draxl and J. O. SofoLinear optical properties of solids within the full-potential linearized augmented planewave methodComp. Phys. Commun. 175, 1-14 (2006)
Careful…
• Doping: rigid band• Gap problem• Temperature dependence of the electronic
structure.• Alloys. Single site approximations do not work.• Many k-points
T. J. Scheidemantel, C. Ambrosch-Draxl, T. Thonhauser, J. V. Badding, and J. O. Sofo. “Transport Coefficients from First-principles Calculations.” Phys. Rev. B 68, 125210 (2003)
Bi2Te3
Bismuth
Why is Bi so good?
Bi vs. Bi2Te3
Improved thermoelectric devices using bismuth alloysT. Thonhauser, T. J. Scheidemantel, J. O. Sofo, Appl. Phys. Lett. 85, 588 (2004)
Is there any hope?
Courtesy of Georg Madsen
A Program by Georg Madsen and David Singh
Courtesy of Georg Madsen
Georg Madsen’s
Opals
• Different scattering for phonons and electrons.
• Work done for Allied Signal Corp.
• Not an alternative…
•
Summary
• Tool to explore new compounds, pressure, “negative” pressure.
• Prediction of a new compound by G. Madsen.• Easy to expand adding new Scattering
Mechanisms• Limited to applications on “non-correlated”
semiconductors.• The search for the best material continues…