Hierarchical Structure with Highly Ordered Macroporous-Mesoporous Metal-Organic Frameworks as Dual Function for CO(2) Fixation

As a major greenhouse gas, the continuous increase of carbon dioxide (CO(2)) in the atmosphere has caused serious environmental problems, although CO(2) is also an abundant, inexpensive, and nontoxic carbon source. Here, we use metal-organic framework (MOF) with highly ordered hierarchical structure as adsorbent and catalyst for chemical fixation of CO(2) at atmospheric pressure, and the CO(2) can be converted to the formate in excellent yields. Meanwhile, we have successfully integrated highly ordered macroporous and mesoporous structures into MOFs, and the macro-, meso-, and microporous structures have all been presented in one framework. Based on the unique hierarchical pores, high surface area (592 m(2)/g), and high CO(2) adsorption capacity (49.51 cm(3)/g), the ordered macroporous-mesoporous MOFs possess high activity for chemical fixation of CO(2) (yield of 77%). These results provide a promising route of chemical CO(2) fixation through MOF materials.