Linseis et al., 2018
ViewPDF| Publication | Publication Date | Title |
|---|---|---|
| Linseis et al. | Advanced platform for the in-plane ZT measurement of thin films | |
| Wang et al. | A brief review on measuring methods of thermal conductivity of organic and hybrid thermoelectric materials | |
| Mavrokefalos et al. | Four-probe measurements of the in-plane thermoelectric properties of nanofilms | |
| Chien et al. | Thermal conductivity measurement and interface thermal resistance estimation using SiO2 thin film | |
| Dames | Measuring the thermal conductivity of thin films: 3 omega and related electrothermal methods | |
| Völklein et al. | Measuring methods for the investigation of in‐plane and cross‐plane thermal conductivity of thin films | |
| Linseis et al. | Platform for in-plane ZT measurement and Hall coefficient determination of thin films in a temperature range from 120 K up to 450 K | |
| Sola et al. | Evaluation of thermal gradients in longitudinal spin Seebeck effect measurements | |
| Wang et al. | Contributed Review: Instruments for measuring Seebeck coefficient of thin film thermoelectric materials: A mini-review | |
| Bodenschatz et al. | Extending the 3ω method: Thermal conductivity characterization of thin films | |
| Li et al. | Substrate-supported thermometry platform for nanomaterials like graphene, nanotubes, and nanowires | |
| Hua et al. | A two-sensor 3ω-2ω method for thermal boundary resistance measurement | |
| Stojanovic et al. | Direct measurement of thermal conductivity of aluminum nanowires | |
| Yamaguchi et al. | Anisotropic thermal conductivity measurement of organic thin film with bidirectional 3ω method | |
| Wang et al. | Determination of the thermopower of microscale samples with an AC method | |
| Kumar et al. | Lithography-free resistance thermometry based technique to accurately measure Seebeck coefficient and electrical conductivity for organic and inorganic thin films | |
| Nomoto et al. | Construction of a thermal conductivity measurement system for small single crystals of organic conductors | |
| Swoboda et al. | Nanoscale temperature sensing of electronic devices with calibrated scanning thermal microscopy | |
| Han et al. | A built-in temperature sensor in an integrated microheater | |
| Dechaumphai et al. | Sub-picowatt resolution calorimetry with niobium nitride thin-film thermometer | |
| Rojo et al. | High electrical conductivity in out of plane direction of electrodeposited Bi2Te3 films | |
| He et al. | A new method for simultaneous measurement of Seebeck coefficient and resistivity | |
| Hopkins et al. | Thermal Conductivity Measurements on Polycrystalline Silicon Microbridges Using the 3 ω Technique | |
| Alaie et al. | Microfabricated suspended island platform for the measurement of in-plane thermal conductivity of thin films and nanostructured materials with consideration of contact resistance | |
| Qiao et al. | Extension of on-chip thermometry of metal strips toward sub-10 K regime |