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Fast, Simple, and Cost‐Effective Fabrication of High‐Performance Thermoelectric Ag<sub>2</sub>Se through Low‐Temperature Hot‐Pressing

Jariya Lasiw, Teerasak Kamwanna, Supree Pinitsoontorn

2024ChemNanoMat10 citationsDOI

Abstract

Abstract Silver selenide (Ag 2 Se) is a promising thermoelectric material for near‐room temperature applications. This study proposes a fast, simple, and cost‐effective method for producing high thermoelectric performance bulk Ag 2 Se. Ag 2 Se powders were synthesized from Ag and Se powders via a one‐hour wet ball milling process, followed by the fabrication of bulk pellets through low‐temperature hot‐pressing (130–250 °C) with a mere 0.5‐hour holding time. Both Ag 2 Se powders and bulk pellets exhibited a single phase of Ag 2 Se with an orthorhombic structure. Moreover, uniform compositional distribution with the stoichiometric Ag : Se ratio was observed in all samples. Microstructural analysis revealed distinct grain boundaries in samples hot‐pressed below 190 °C, transitioning to grain coalescence was at 190 °C and 250 °C. The thermoelectric and transport measurements demonstrated that the electrical conductivity decreased and the Seebeck coefficient increased with hot‐pressing temperatures from 130 °C and 190 °C primarily due to reduced carrier concentrations. Thermal conductivity decreased with increasing hot‐pressing temperatures up to 190 °C, attributed to the weak chemical bonding of Ag 2 Se and the presence of defects. This combination resulted in a peak zT over 1.0 at 300 K, with an average zT close to 1.0 from 300 to 380 K. In comparison to other reported synthesis methods, the present approach offers significantly reduced processing time, simplicity, and cost‐effectiveness. Despite lower temperatures and shorter processing times, the method produces Ag 2 Se with zT values comparable to more intricate techniques. This fabrication route holds the potential for scalable mass production in the future.

Topics & Concepts

FabricationSimple (philosophy)Materials scienceThermoelectric effectPressingOptoelectronicsHot pressingEngineering physicsNanotechnologyMetallurgyComposite materialEngineeringMedicinePhysicsThermodynamicsPhilosophyAlternative medicineEpistemologyPathologyAdvanced Thermoelectric Materials and DevicesQuantum Dots Synthesis And PropertiesChalcogenide Semiconductor Thin Films
Fast, Simple, and Cost‐Effective Fabrication of High‐Performance Thermoelectric Ag<sub>2</sub>Se through Low‐Temperature Hot‐Pressing | Litcius