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Advances in hexaazatriphenylene-based COFs for rechargeable batteries: from structural design to electrochemical performance
Energy Environ. Sci., 2025, Advance ArticleDOI: 10.1039/D5EE01599E, Review Article Open Access   This article is licensed under a Creative Commons Attribution 3.0 Unported Licence.Zhonghui Sun, Zhongping Li, Jinsong Peng, Xiaomeng Yan, Hang Shang, Yucheng Jin, Qiannan Zhao, Changqing Li, Siliu Lyu, Chunxia Chen, Jong-Beom BaekHexaazatriphenylene-based covalent organic frameworks with electronegative skeletons and high porosity that enhance ion transport, redox activity, and cycling stability, offering insights into the design of high-performance electrode materials.To cite this article before page numbers are assigned, use the DOI form of citation above.The content of this RSS Feed (c) The Royal Society of Chemistry
Energy Environ. Sci., 2025, Advance Article
DOI: 10.1039/D5EE01599E, Review Article
DOI: 10.1039/D5EE01599E, Review Article
Open Access
This article is licensed under a Creative Commons Attribution 3.0 Unported Licence.Zhonghui Sun, Zhongping Li, Jinsong Peng, Xiaomeng Yan, Hang Shang, Yucheng Jin, Qiannan Zhao, Changqing Li, Siliu Lyu, Chunxia Chen, Jong-Beom Baek
Hexaazatriphenylene-based covalent organic frameworks with electronegative skeletons and high porosity that enhance ion transport, redox activity, and cycling stability, offering insights into the design of high-performance electrode materials.
To cite this article before page numbers are assigned, use the DOI form of citation above.
The content of this RSS Feed (c) The Royal Society of Chemistry
Hexaazatriphenylene-based covalent organic frameworks with electronegative skeletons and high porosity that enhance ion transport, redox activity, and cycling stability, offering insights into the design of high-performance electrode materials.
To cite this article before page numbers are assigned, use the DOI form of citation above.
The content of this RSS Feed (c) The Royal Society of Chemistry
