Metal-Free Hyper-Cross-Linked Polymers from Benzyl Methyl Ethers: A Route to Polymerization Catalyst Recycling

Abstract

New routes to porous materials can help lower production costs, improve sustainability, and broaden design options. Here, we use a selection of organic acids as catalysts in the synthesis of organic hyper-cross-linked polymers from benzyl methyl ether compounds. This approach provides a new route to metal-free porous organic polymers and addresses one of the largest setbacks of hyper-cross-linked polymers by allowing the simple recovery and recycling of a nonmetallic catalyst. By use of p-toluenesulfonic acid, a solid at room temperature, catalyst recovery rates of >80% were easily achieved. The catalyst was then reused as recovered in the further production of hyper-cross-linked polymers. Three rounds of catalyst recycling are demonstrated on two different aromatic systems, with no apparent detriment to the chemical or textural properties of the resulting networks.