Mesoporous materials have attracted a great deal of attention due to their extremely high surface area, uniform and tunable pore structure (2-50nm in diameter), and have been investigated extensively since its invention. Unfortunately, their catalytic properties are far away from the expectation due to their amorphous and inert framework and poor stability. This research project is aimed at the design and synthesis of mesoporous-based composites, their catalytic properties and application exploration. As the main contributors to the achievements, Mesoporous materials have attracted a great deal of attention due to their extremely high surface area, uniform and tunable pore structure (2-50nm in diameter), and have been investigated extensively since its invention. Unfortunately, their catalytic properties are far away from the expectation Due to their amorphous and inert framework and poor stability. This research project is aimed at the design and synthesis of mesoporous-based composites, their catalytic properties and application exploration. As the main contributors to the achievements,