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2D Frameworks of C2N and C3N as New Anode Materials for Lithium-Ion Batteries

journal contribution
posted on 2024-11-16, 05:21 authored by Jiantie Xu, Javeed Mahmood, Yuhai Dou, Shi DouShi Dou, Feng Li, Liming Dai, Jong-Beom Baek
Novel layered 2D frameworks (C 3 N and C 2 N-450) with well-defined crystal structures are explored for use as anode materials in lithium-ion batteries (LIBs) for the first time. As anode materials for LIBs, C 3 N and C 2 N-450 exhibit unusual electrochemical characteristics. For example, C 2 N-450 (and C 3 N) display high reversible capacities of 933.2 (383.3) and 40.1 (179.5) mAh g -1 at 0.1 and 10 C, respectively. Furthermore, C 3 N shows a low hypothetical voltage (¿0.15 V), efficient operating voltage window with ¿85% of full discharge capacity secured at > 0.45 V, and excellent cycling stability for more than 500 cycles. The excellent electrochemical performance (especially of C 3 N) can be attributed to their inherent 2D polyaniline frameworks, which provide large net positive charge densities, excellent structural stability, and enhanced electronic/ionic conductivity. Stable solid state interface films also form on the surfaces of the 2D materials during the charge/discharge process. These 2D materials with promising electrochemical performance should provide insights to guide the design and development of their analogues for future energy applications.

Funding

Multifunctional 2D materials for sustainable energy applications

Australian Research Council

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Citation

Xu, J., Mahmood, J., Dou, Y., Dou, S., Li, F., Dai, L. & Baek, J. (2017). 2D Frameworks of C2N and C3N as New Anode Materials for Lithium-Ion Batteries. Advanced Materials, 29 (34), 1702007 -1-1702007 -8.

Journal title

Advanced Materials

Volume

29

Issue

34

Language

English

RIS ID

115372

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