nanoHUB-U Thermoelectricity L3.0: Nano/Macroscale Characterization - Introduction and Motivation
nanoHUB-U Thermoelectricity L3.1: Nano/Macroscale Characterization - Temperature Measurement I
nanoHUB-U Thermoelectricity L3.4: Nano/Macroscale Characterization - Thin Film Characterization
nanoHUB-U Thermoelectricity L3.6: Nano/Macroscale Characterization - Summary of Week 3
nanoHUB-U Thermoelectricity L3.2: Nano/Macroscale Characterization - Temperature Measurement II
nanoHUB-U Thermoelectricity L2.0: Thermoelectric Transport Parameters - Short Introduction
nanoHUB-U Thermoelectricity L4.3: Thermoelectric Systems - Microrefrigerator on a Chip
nanoHUB-U Thermoelectricity L2.7: Thermoelectric Transport Parameters - Using Full Band Dispersions
nanoHUB-U Thermoelectricity L4.1: Thermoelectric Systems - Thermoelectric Cooling/Power Generation
nanoHUB-U Thermoelectricity L2.3: Thermoelectric Transport Parameters - Devices and Materials
nanoHUB-U Thermoelectricity L5.2: Recent Advances - Semiconductors with Embedded Nanoparticles
nanoHUB-U Thermoelectricity L5.4: Recent Advances - Skutterudites, Oxide Thermoelectrics, etc.
nanoHUB-U Thermoelectricity L2.4: Thermoelectric Transport Parameters - Novel Materials & Structures
nanoHUB-U Thermoelectricity: Scientific Overview Shakouri-Datta-Lundstrom
nanoHUB-U Thermoelectricity L1.1: Bottom Up Approach: Landauer Formalism
nanoHUB-U Thermoelectricity L2.2: Thermoelectric Transport Parameters - TE Transport Coefficients
nanoHUB-U Thermoelectricity L5.1: Recent Advances - Thermionics vs. Thermoelectrics
nanoHUB-U Thermoelectricity L4.4: Thermoelectric Systems - Graded materials, TE leg geometry impact
nanoHUB-U Thermoelectricity L2.1: Thermoelectric Transport Parameters - Landauer-Boltzmann Approach
nanoHUB-U Thermoelectricity L1.6 Bottom-up Approach: The Bottom-up Approach
