铁磁性
材料科学
磁性
密度泛函理论
钴
纳米结构
化学物理
空位缺陷
Atom(片上系统)
铁磁材料性能
兴奋剂
氧气
纳米技术
结晶学
凝聚态物理
计算化学
磁化
化学
光电子学
物理
冶金
磁场
量子力学
计算机科学
嵌入式系统
有机化学
作者
Vinod K. Paidi,Byoung‐Hoon Lee,Alex Taekyung Lee,Sohrab Ismail‐Beigi,Elizaveta Grishaeva,Sami Vasala,Pieter Glatzel,Wonjae Ko,Docheon Ahn,Taeghwan Hyeon,Younghak Kim,Kug‐Seung Lee
标识
DOI:10.1073/pnas.2409397121
摘要
Oxygen vacancies and their correlation with the nanomagnetism and electronic structure are crucial for applications in dilute magnetic semiconductors design applications. Here, we report on cobalt single atom-incorporated titanium dioxide (TiO 2 ) monodispersed nanoparticles synthesized using a thermodynamic redistribution strategy. Using advanced synchrotron-based X-ray techniques and simulations, we find trivalent titanium is absent, indicating trivalent cations do not influence ferromagnetic (FM) stability. Density functional theory calculations show that the FM stability between Co 2+ ions is very weak. However, electron doping from additional oxygen vacancies can significantly enhance this FM stability, which explains the observed room-temperature ferromagnetism. Moreover, our calculations illustrate enhanced FM interactions between Co Ti + V O complexes with additional oxygen vacancies. This study explores the electronic structure and room-temperature ferromagnetism using monodispersed nanocrystallites with single-atom-incorporated TiO 2 nanostructures. The strategies described herein offer promise in revealing magnetism in other single-atom-incorporated nanostructures.
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(2025-6-4)
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