Thermoelectric Properties of Ductile Doped Ag2S for Low Power Factor Application

• Published in: Acta electrotechnica et informatica Vol. 24; no. 1; pp. 9 - 15
• Main Authors: Hricková, Gabriela, Mihok, František, Lukács, Peter, Džunda, Róbert
• Format: Journal Article
• Language: English
• Published: Sciendo 01.03.2024
• Subjects: ag2s; microstructure; thermoelectric properties
• ISSN: 1338-3957
• DOI: 10.2478/aei-2024-0002

Wearable technologies encompass a diverse range of devices integral to our daily routines. Thermoelectric materials, known for their ability to convert heat differentials into electrical energy, are driving advancements in the automotive, aerospace, consumer electronics, and healthcare sectors. In automotive and aerospace, thermoelectric generators (TEGs) are utilized to enhance fuel efficiency and power onboard systems. In consumer electronics, thermoelectric coolers regulate temperature in devices like laptops and smartphones while also powering wearable technologies and sensors. Healthcare applications include wearable health monitors and drug delivery systems, utilizing thermoelectric devices for thermal management and diagnostics. Smartwatches, intelligent bracelets, sunglasses, and blood pressure sensors exemplify this trend, harnessing the potential of thermoelectric materials to generate power from temperature differentials. Ag S is a ductile thermoelectric material with a potential use in thermoelectric devices. The aim of the article was to characterize the thermoelectric Ag S -based material and describe the impact of chosen dopants on material properties. The Seebeck coefficient of pure Ag S is -1051 μV.K , the Seebeck coefficient of Sb-doped material is −2.54 μV.K , and that of Ge-doped material is more positive at −87 μV.K . Material doped with Ge shows better thermoelectric properties.