NIR-enhanced Pt single atom/g-C<sub>3</sub>N<sub>4</sub> nanozymes as SOD/CAT mimics to rescue ATP energy crisis by regulating oxidative phosphorylation pathway for delaying osteoarthritis progression.
Journal Information
Full Title: Bioact Mater
Abbreviation: Bioact Mater
Country: Unknown
Publisher: Unknown
Language: N/A
Publication Details
Subject Category: Engineering, Biomedical
Available in Europe PMC: Yes
Available in PMC: Yes
PDF Available: No
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"Declaration of competing interest The authors declare no competing interests."
"The authors acknowledge the support from the 10.13039/100012547Guangxi Natural Science Foundation (No. 2023GXNSFBA026020), 10.13039/501100017691Guangxi Scientific Research and Technological Development Foundation (Grant No. GuikeAB21220062), 10.13039/501100001809National Natural Science Foundation of China (Grant No. 82160429, 82360426, 52301303, 81960400). Jianhui Xiang: Writing – original draft, Software, Methodology, Investigation, Formal analysis, Data curation. Xin Yang: Writing – original draft, Software, Formal analysis, Data curation. Manli Tan: Writing – original draft, Software, Conceptualization. Jianfeng Guo: Formal analysis. Yuting Ye: Formal analysis. Jiejia Deng: Formal analysis. Zhangrui Huang: Formal analysis. Hanjie Wang: Formal analysis. Wei Su: Formal analysis. Jianwen Cheng: Funding acquisition. Li Zheng: Writing – review & editing, Funding acquisition. Sijia Liu: Funding acquisition. Jingping Zhong: Writing – review & editing, Funding acquisition, Conceptualization. Jinmin Zhao: Funding acquisition."
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Last Updated: Aug 05, 2025