Abstract:
In response to escalating global energy demands and environmental concerns, the exploration of efficient and clean energy conversion technologies becomes imperative. Thermometric materials emerge as a promising solution, directly transforming waste heat into usable electricity, thus promoting energy harvesting and sustainability. Among these materials, Bismuth sulfide (Bi2S3) has gained attention due to its high electrical conductivity and tunable
thickness-dependent bandgap.
This research delves into the less-explored domain of in-plane thermoelectric potential in Bi2S3 thin films, diverging away from extensively studied bulk forms. Our focus zooms in on the micro and nanoscale thermopower, or Seebeck effect, of these thin films. Through our custom-built measurement devices, we’ve uncovered promising thermoelectric properties in Bi2S3 thin films at both scales. Our findings highlight their potential as versatile thermoelectric materials, providing valuable insights for future exploration and development in practical energy conversion applications. This research paves the way for a cleaner and more sustainable energy future.
