Introduction to Thermoelectricity Lecture 1.3: Theory - Seebeck Coefficient

By Mark Lundstrom

Electrical and Computer Engineering, Purdue University, West Lafayette, IN

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Researchers should cite this work as follows:

  • Mark Lundstrom (2019), "Introduction to Thermoelectricity Lecture 1.3: Theory - Seebeck Coefficient," https://nanohub.org/resources/31459.

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Purdue University, West Lafayette, IN

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  1. energy conversion
  2. nanoelectronics
  3. Seebeck coefficient
  4. thermoelectricity/thermoelectrics
Introduction to Thermoelectricity Lecture 1.3: Theory - Seebeck Coefficient
  • L1.3 Seebeck Coefficient 1. L1.3 Seebeck Coefficient 0
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  • Outline 2. Outline 15.248581915248582
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  • Basic equations (electronic component) 3. Basic equations (electronic co… 21.15448782115449
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  • Electrical current due to temperature differences 4. Electrical current due to temp… 42.50917584250918
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  • Electrical current due to temperature gradients 5. Electrical current due to temp… 174.74140807474143
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  • Seebeck coefficient 6. Seebeck coefficient 270.60393727060392
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  • Sign of the Seebeck coefficient 7. Sign of the Seebeck coefficien… 337.63763763763762
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  • Simple physical picture 8. Simple physical picture 403.10310310310314
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  • Seebeck coefficient 9. Seebeck coefficient 512.07874541207877
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  • Seebeck coefficient vs. Fermi level 10. Seebeck coefficient vs. Fermi … 561.1611611611612
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  • Seebeck coefficient: N-type vs. P-type 11. Seebeck coefficient: N-type vs… 629.69636302969639
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  • Seebeck coefficient vs. Fermi level 12. Seebeck coefficient vs. Fermi … 666.39973306639979
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  • Basic equations (electronic component) 13. Basic equations (electronic co… 715.58224891558223
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