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Thermoelectric Property Enhancement of Tellurium Nanowires by Surface Passivation.

Syed Zulfiqar Hussain ShahZainul AabdinWeng Weei TjiuWei NongJose Recatala-GomezVijila ChellappanWenhao ZhaiDurga Venkata Maheswar RepakaGang WuKedar HippalgaonkarIris NandhakumarPawan Kumar
Published in: ACS applied materials & interfaces (2024)
The pursuit of high-performance thermoelectric materials is of paramount importance in addressing energy sustainability and environmental concerns. Here, we explore the multifaceted impact of sulfur passivation in the matrix of tellurium nanowires (TeNWs), encompassing environmental control, thermoelectric properties, and charge carrier mobility. In this study, we present the facile production of TeNWs using an aqueous solution synthesis approach. The synthesized TeNWs were subsequently subjected to surface modification involving sulfur moieties. Our findings demonstrate that sulfur passivation not only effectively safeguards the nanowires from environmental degradation but also significantly augments their thermoelectric properties. Notably, the highest recorded values were achieved at 560 K for passivated tellurium nanowires, exhibiting a Seebeck coefficient of 246 μV/K, an electrical conductivity of 14.2 S/cm, and power factors of 86.7 μW/m-K 2 . This strategy presents a promising avenue for the development of advanced thermoelectric materials for applications in energy harvesting, waste heat recovery, and sustainable energy conversion technologies.
Keyphrases
  • reduced graphene oxide
  • room temperature
  • life cycle
  • solar cells
  • aqueous solution
  • human health
  • gold nanoparticles
  • perovskite solar cells
  • risk assessment
  • magnetic resonance
  • heavy metals
  • diffusion weighted imaging