摘要
具有典型"三明治"二维层状结构的二硫化钼(Mo S2),因其良好的双电层存储能力和层间载流子传输特性,使其成为一种理想的化学电源电极材料。本文简要阐述了Mo S2材料的结构和性能特点,综述了近五年来其在化学电源应用中的最新研究进展,指出了其在应用中存在的问题与挑战,重点讨论了形貌与尺寸调控及多相复合等解决方法。最后,展望了Mo S2纳米材料在化学电源中的发展方向和应用前景。
Due to its good charge storage in electric double layer and rapid interlayer carrier transport, molybdenum disulfide(Mo S2) with typically "sandwich-like" two-dimensional layered structure is a kind of ideal electrode materials for chemical power sources. In this paper, the structure and performance characteristics of Mo S2 materials were briefly introduced. Research progresses of Mo S2 materials used in chemical power sources were reviewed in recent five years. The main problems and challenges of Mo S2 nanomaterials were analyzed. The solutions were emphatically discussed, especially the modulation of morphology and size. Finally, the development direction and application prospects of Mo S2 nanomaterials in the future were summarized.
出处
《新能源进展》
2015年第5期375-383,共9页
Advances in New and Renewable Energy
基金
江苏省自然科学基金(20141133
20130195)
中央高校基本科研业务费(2013QNA07
2015XKMS096)
关键词
二硫化钼
纳米材料
化学电源
研究现状
molybdenum disulfide
nanomaterials
chemical power source
investigation progresses
