Szczegóły publikacji

Opis bibliograficzny

Revealing the dual role of iodine dopant in Cu-based argyrodites via defect chemistry / Oleksandr CHERNIUSHOK, Taras PARASHCHUK, Remigiusz Osowski, Anilkumar BOHRA, Janusz TOBOŁA, Krzysztof T. WOJCIECHOWSKI // ACS Applied Materials & Interfaces ; ISSN  1944-8244 . — 2025 — vol. 17 iss. 51, s. 69621−69634. — Bibliogr. s. 69633-69634, Abstr. — Publikacja dostępna online od: 2025-12-09

Autorzy (6)

Słowa kluczowe

crystal structureelectronic structurethermoelectric propertiesthermal conductivitydopants

Dane bibliometryczne

ID BaDAP165337
Data dodania do BaDAP2026-01-30
Tekst źródłowyURL
DOI10.1021/acsami.5c18438
Rok publikacji2025
Typ publikacjiartykuł w czasopiśmie
Otwarty dostęptak
Czasopismo/seriaACS Applied Materials & Interfaces

Abstract

Driven by their ultralow lattice thermal conductivity and the prospect of a cost-effective, environmentally friendly design, argyrodites have emerged as highly promising candidates for thermoelectric energy conversion. While Ag-based argyrodites can exhibit both n- and p-type conductivity, Cu-based analogues are typically dominated by p-type charge carriers. Moreover, despite the crucial role of defect engineering in enhancing thermoelectric performance, there is still limited knowledge of effective doping strategies for these materials. In this work, we investigate aliovalent iodine substitution at the chalcogen sites in Cu-based argyrodites. Two doping scenarios were explored: a charge-balanced series Cu8–xSi(S0.5Se0.5)6–xIx and a charge-nonbalanced series Cu8Si(S0.5Se0.5)6–xIx. In both cases, iodine substitution increases the lattice parameters and promotes the formation of Cu2Se-based precipitates. Rietveld refinement and theoretical calculations confirm that iodine preferentially occupies the Q3 (4a) anion site. In the charge-nonbalanced samples, doping inefficiencies result in the presence of both electron and hole carriers, leading to complex transport behavior. Conversely, in the charge-balanced samples, iodine substitution increases the hole concentration by creating Cu+ vacancies, which also modifies the Seebeck coefficient and enhances the power factor at elevated temperatures. As a result, iodine-doped Cu7.9SiS2.95Se2.95I0.1 achieves a high thermoelectric figure of merit (ZT ≈ 0.9 at 773 K), demonstrating strong potential for midtemperature thermoelectric power generation.

Publikacje, które mogą Cię zainteresować

artykuł
#137121Data dodania: 19.10.2021
High thermoelectric performance of p-type PbTe enabled by the synergy of resonance scattering and lattice softening / Taras PARASHCHUK, Bartłomiej WIENDLOCHA, Oleksandr CHERNIUSHOK, Rafał KNURA, Krzysztof T. WOJCIECHOWSKI // ACS Applied Materials & Interfaces ; ISSN 1944-8244. — 2021 — vol. 13 iss. 41, s. 49027–49042. — Bibliogr. s. 49040–49042, Abstr. — Publikacja dostępna online od: 2021-10-11
SzczegółyLink
artykuł
#135955Data dodania: 7.9.2021
Entropy-induced multivalley band structures improve thermoelectric performance in $p-Cu_{7}P(S_{x}Se_{1–x})_{6}$ argyrodites / Oleksandr CHERNIUSHOK, Taras PARASHCHUK, Janusz TOBOŁA, Son D. N. Luu, Artem Pogodin, Oleksandr Kokhan, Ihor Studenyak, Igor Barchiy, Michał Piasecki, Krzysztof T. WOJCIECHOWSKI // ACS Applied Materials & Interfaces ; ISSN 1944-8244. — 2021 — vol. 13 iss. 33, s. 39606–39620. — Bibliogr. s. 39618–39620, Abstr. — Publikacja dostępna online od: 2021-08-13. — O. Cherniushok, T. Parashchuk, K. T. Wojciechowski – dod. afiliacja: Lukasiewicz Research Network, Krakow Institute of Technology
SzczegółyLink