段老师在SCI期刊 J Mater Chem A 上发表论文
段老师参与完成的论文 “Design and synthesis of room temperature stable Li-argyrodite superionic conductors via cation doping” 在 Journal Of Materials Chemistry A 期刊发表。段老师在本文章中主要参与了第一性原理的计算。
该文章基本信息如下:
标题:Design and synthesis of room temperature stable Li-argyrodite superionic conductors via cation doping
作者:Zhuoran Zhang, Yulong Sun, Xianbao Duan, Linfeng Peng, Huanhuan Jia, Yunyang Zhang, Bin Shan and Jia Xie*
摘要:All-solid-state batteries receive tremendous attention owing to their potential in improving battery safety and electrochemical properties. Developing a suitable solid electrolyte (SE) is a significant factor for all-solid-state batteries. Herein, we report calculation prediction and experimental evaluation of a series of Li-argyrodites, Li7+xMxP1−xS6 (M = Si, Ge). The density functional theory method predicts the structural stability of argyrodite-type Li7+xMxP1−xS6 (M = Si, Ge), meanwhile, the argyrodite-type Li7+xMxP1−xS6 (M = Si, Ge) are successfully synthesized by a solid state reaction method. Using structure refinements of X-ray diffraction data and Raman spectroscopy, we discover that Si and Ge substitute the P in the 4b site. Si and Ge aliovalent doping in the original composition, Li7PS6, can make the desired cubic high-temperature (HT) phase of Li-argyrodites stabilized at room temperature and improve the ionic conductivities over 10−3 S cm−1 which is 3 orders of magnitude higher than that of original Li7PS6. Moreover, the argyrodite-type Li7+xMxP1−xS6 (M = Si, Ge) show a wide electrochemical window and stability with lithium metal. Stabilized Li-argyrodites could be suitable solid electrolytes for application in all-solid-state batteries. This work also demonstrates that stabilizing the high-temperature phase with high ionic conductivity would be a promising approach to explore new ionic conductors.
期刊:Journal Of Materials Chemistry A
链接:https://pubs.rsc.org/en/content/articlelanding/2019/ta/c8ta10790d
Journal Of Materials Chemistry A 影响因子在2018年影响因子为9.931,在中科院分区中属于工程技术大类1区期刊。