碳基纳米孔材料具有比表面积高、孔隙率大、易于修饰、价格低廉、环境友好等特点,在新能源电池、催化、吸附分离等领域具有较高的应用前景。本研究方向以吸附分离、光电催化和电池材料为应用导向,采用设计、调控、优化等手段,对碳基材料的孔结构、骨架成分、孔道表面性质等关键指标进行调控,以期开发出极具实用价值的碳基纳米孔新能源材料。
Carbonaceous nanoporous materials possess many advantages such as large surface area, high porosity, easy-to-modify and low price, and have been well investigated in the fields of battery, catalysis and gas separation. In our lab, the researches are focusing on the development of novel carbonaceous nanoporous materials with controllable porous structures, framework compositions and surface functional groups.