Publications by authors named "Jay-Young Ahn"
Article Synopsis
- Recent interest in semiconducting superlattice films stems from their potential to enhance thermal power and phonon scattering due to their low dimensionality.
- Existing experimental studies on cross-plane thermoelectric properties have been limited by challenges in measuring the Seebeck coefficient and electrical conductivity.
- The new technique involves using sandwiched superlattice films with embedded heaters and electrodes, allowing for effective measurement of these properties in AlO/ZnO superlattice films across a temperature range of 80 to 500 K.
Recently, significant progress has been made in increasing the figure-of-merit (ZT) of various nanostructured materials, including thin-film and quantum dot superlattice structures. Studies have focused on the size reduction and control of the surface or interface of nanostructured materials since these approaches enhance the thermopower and phonon scattering in quantum and superlattice structures. Currently, bismuth-tellurium-based semiconductor materials are widely employed for thermoelectric (TE) devices such as TE energy generators and coolers, in addition to other sensors, for use at temperatures under 400 K.
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