在钛酸钙的TiO八面体中共同断裂的Ti - O键可极大增强室温铁磁性。

CO-broken Ti-O bonds in the TiO octahedron of CaTiO for greatly enhanced room-temperature ferromagnetism.

作者信息

Ouyang Yuqi, Gao Bo, Tang Yaozheng, Li Lianyu, Xu Qun

机构信息

College of Materials Science and Engineering, Zhengzhou University Zhengzhou 450052 P. R. China

Henan Institute of Advanced Technology, Zhengzhou University Zhengzhou 450052 P. R. China.

出版信息

Chem Sci. 2024 Dec 11;16(3):1336-1343. doi: 10.1039/d4sc05607h. eCollection 2025 Jan 15.

DOI:10.1039/d4sc05607h

PMID:39697417

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11651137/

Abstract

Preparation of two-dimensional (2D) ferromagnetic nanomaterials and the study of their magnetic sources are crucial for the exploration of new materials with multiple applications. Herein, two-dimensional room-temperature ferromagnetic (FM) CaTiO nanosheets are successfully constructed with the assistance of supercritical carbon dioxide (SC CO). In this process, the SC CO-induced strain effect can lead to lattice expansion and introduction of O vacancies. More importantly, experimentally it can be found out that the breakage of the Ti-O bond by CO directly results in the equatorial plane of the TiO octahedron being exposed. This leads to more opportunities for oxygen vacancies and low-valent titanium to appear, where Ti can optimize the spin structure, releasing the macroscopic magnetization. Greatly improved room-temperature ferromagnetic behavior, with an optimal magnetization of 0.1661 emu g and a high Curie temperature (Tc) of 300 K can be achieved.

摘要

二维（2D）铁磁纳米材料的制备及其磁源研究对于探索具有多种应用的新材料至关重要。在此，在超临界二氧化碳（SC CO₂）的辅助下成功构建了二维室温铁磁（FM）CaTiO₃纳米片。在此过程中，SC CO₂诱导的应变效应可导致晶格膨胀并引入氧空位。更重要的是，实验发现CO直接导致Ti - O键断裂，使得TiO₆八面体的赤道面暴露。这导致出现更多氧空位和低价钛的机会，其中Ti可以优化自旋结构，释放宏观磁化强度。可以实现大大改善的室温铁磁行为，最佳磁化强度为0.1661 emu g⁻¹，居里温度（Tc）高达300 K。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0bee/11734176/dee37ce0296f/d4sc05607h-f2.jpg

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在钛酸钙的TiO八面体中共同断裂的Ti - O键可极大增强室温铁磁性。

CO-broken Ti-O bonds in the TiO octahedron of CaTiO for greatly enhanced room-temperature ferromagnetism.

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