Recent Advances on Cerium Oxide‐Based Biomaterials: Toward the Next Generation of Intelligent Theranostics Platforms

纳米技术 氧化铈 材料科学 氧化物 冶金
作者
Yongkang Huang,Mengzhen Zhang,Mengdie Jin,Tengfei Ma,Jialiang Guo,Xinyun Zhai,Yaping Du
出处
期刊:Advanced Healthcare Materials [Wiley]
卷期号:12 (25): e2300748-e2300748 被引量:28
标识
DOI:10.1002/adhm.202300748
摘要

Abstract Disease or organ damage due to unhealthy living habits, or accidents, is inevitable. Discovering an efficient strategy to address these problems is urgently needed in the clinic. In recent years, the biological applications of nanotechnology have received extensive attention. Among them, as a widely used rare earth oxide, cerium oxide (CeO 2 ) has shown good application prospects in biomedical fields due to its attractive physical and chemical properties. Here, the enzyme‐like mechanism of CeO 2 is elucidated, and the latest research progress in the biomedical field is reviewed. At the nanoscale, Ce ions in CeO 2 can be reversibly converted between +3 and +4. The conversion process is accompanied by the generation and elimination of oxygen vacancies, which give CeO 2 the performance of dual redox properties. This property facilitates nano‐CeO 2 to catalyze the scavenging of excess free radicals in organisms, hence providing a possibility for the treatment of oxidative stress diseases such as diabetic foot, arthritis, degenerative neurological diseases, and cancer. In addition, relying on its excellent catalytic properties, customizable life‐signaling factor detectors based on electrochemical techniques are developed. At the end of this review, an outlook on the opportunities and challenges of CeO 2 in various fields is provided.
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