Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
5149847 | Journal of Power Sources | 2017 | 7 Pages |
Abstract
The Lithium Sulfur (Li-S) battery system is one of the most promising candidates for electric vehicle applications due to its higher energy density when compared to conventional lithium ion batteries. However, there are some challenges facing LiâS battery commercialization, such as: low active material utilization, high self-discharge rate, and high rate of capacity fade. In this work, a series of transition metal nitrides: Tungsten nitride (WN), Molybdenum Nitride (Mo2N), and Vanadium Nitride (VN) was investigated as cathode materials for lithium polysulfide conversion reactions. Capacities of 697, 569, and 264 mAh gâ1 were observed for WN, Mo2N, VN, respectively, with 8 mg cmâ2 loading, after 100 cycles at a 0.1 C rate. WN higher electrochemical performance may be attributed to a strong reversible reaction between nitrides and polysulfide, which retains the sulfur species on the electrode surface, and minimizes the active material and surface area loss. X-ray photoelectron spectroscopy (XPS) analysis was performed to gain a better understanding of the mechanism underlying each metal nitride redox reactions.
Related Topics
Physical Sciences and Engineering
Chemistry
Electrochemistry
Authors
Negar Mosavati, Steven O. Salley, K.Y. Simon Ng,