Pristine SnO2 thin films: origins of high curie temperature

• Authors: PHAM Sy Nguyen; NGUYEN Que Huong; PAZOUREK Petr; MEDUŇA Mojmír; CAHA Ondřej; NGUYEN Hoa Hong
• Year of publication: 2025
• Type: Article in Periodical
• Magazine / Source: Applied Physics A
• MU Faculty or unit: Faculty of Science
• web: https://doi.org/10.1007/s00339-025-09031-7
• Doi: https://doi.org/10.1007/s00339-025-09031-7
• Keywords: Surface-related ferromagnetism; High T C; Low dimensionality; Spintronics

Attached files

• APYA_Tc_SnO2_OA_corrected.pdf

• Description: We investigate the origin of ferromagnetism (FM) and the exceptionally high Curie temperature (TC) in undoped SnO2 films. Ultra-thin SnO2 films were found to exhibit significant FM, while thicker films show a diamagnetic behavior. Structural and chemical analyses reveal a variation in oxygen vacancy concentrations between thin and thick films. Notably, an exceptionally high TC exceeding 800 K is observed for the first time. XPS and XAS analyses reveal the presence of oxygen and tin vacancies, which might play a crucial role in the observed magnetism. Theoretically, it was supposed that oxygen vacancies play a crucial role in the FM of SnO2 films. However, the experimentally observed TC surpasses the predicted 505 K, suggesting additional contributing factors. This suggests that both oxygen and tin defects might contribute to the total magnetic moment. The findings highlight the key role of defect-induced magnetism in SnO2 thin films and provide insights into the fundamental mechanism driving high- TC FM in undoped oxide semiconductors.

Related projects

• Původ feromagnetismu při pokojové teplotě v tenkých vrstvách nedopovaných polovodičových oxidů typu d0