Institute of High Energy Physics, Chinese Academy of Science (CAS), Beijing 100049, China.
Phys Chem Chem Phys. 2019 Feb 27;21(9):5178-5188. doi: 10.1039/c9cp00012g.
In this study, we report two new Mo2B2 monolayers and investigate their stabilities, electronic structures, lattice dynamics, and properties as anode materials for energy storage by using the crystal structure prediction technique and first-principles method. The calculated phonon spectra and electrical structures indicate that our predicted tetragonal and trigonal Mo2B2 (tetr- and tri-Mo2B2) monolayers possess excellent electronic conductivity and great stability. The adsorption energies of Li/Na on them are negative enough to ensure stability and safety under operating conditions. Besides, tetr-Mo2B2 possesses a theoretical specific capacity of ∼251 mA h g-1 for both Li- and Na-ion batteries (LIBs and NIBs), while tri-Mo2B2 possesses ∼251 and ∼188 mA h g-1 for LIBs and NIBs, respectively. The diffusion energy barriers of Li/Na over tetr- (0.029/0.010 eV) and tri- (0.023/0.013 eV) Mo2B2 are very small, indicating their excellent charge/discharge capability. In addition, the low electrode potential of Li/Na-intercalated tetr- and tri-Mo2B2 is beneficial to their performance as anode materials. This work is of great importance for widening the families of both anode materials for LIBs/NIBs and two-dimensional transition metal borides.
在这项研究中,我们报告了两种新的 Mo2B2 单层,并通过晶体结构预测技术和第一性原理方法研究了它们作为储能阳极材料的稳定性、电子结构、晶格动力学和性质。计算得到的声子谱和电子结构表明,我们预测的四方和三角 Mo2B2(四方和三角 Mo2B2)单层具有出色的导电性和稳定性。Li/Na 在其上的吸附能为负值,足以确保在工作条件下的稳定性和安全性。此外,四方 Mo2B2 对于 Li-和 Na-离子电池(LIBs 和 NIBs)具有约 251 mA h g-1 的理论比容量,而三角 Mo2B2 对于 LIBs 和 NIBs 分别具有约 251 和 188 mA h g-1 的理论比容量。Li/Na 在四方 Mo2B2(0.029/0.010 eV)和三角 Mo2B2(0.023/0.013 eV)上的扩散能垒非常小,表明其具有出色的充放电能力。此外,Li/Na 插层的四方和三角 Mo2B2 的电极电势较低,有利于它们作为阳极材料的性能。这项工作对于拓宽 LIBs/NIBs 的阳极材料和二维过渡金属硼化物的家族具有重要意义。
