Carbon Excess C3N: A Potential Candidate as Li-Ion Battery Material

Xu et al.’s recent experimental work (Adv. Mater. 2017, 29, 1702007) suggested that C3N is a potential candidate as Li-ion battery with unusual electrochemical characteristics. However, the obvious capacity loss (from 787.3 to 383.3 mA h·g–1) occurs after several cycles, which restricts its high performance. To understand and further solve this issue, in the present study, we have studied the intercalation processes of Li ions into C3N via first-principle simulations. The results reveal that the Li-ion theoretical capacity in pure C3N is only 133.94 mA h·g–1, the value is obviously lower than experimental one. After examining the experimental results in detail, it is found that the chemical component of the as-generated CxN structure is actually C2.67N with N excess. In this case, the calculated theoretical capacity is 837.06 mA h·g–1, while part of Li ions are irreversibly trapped in C2.67N, resulting in the capacity loss. This phenomenon is consistent with the experimental results. Accordingly, we sugge...