Synthesis of Novel Porous Organic Materials Based on Phloroglucinol and Its Derivatives

Abstract

Porous organic materials have found many applications, such as catalysis, energy, adsorption and separation., owing to the high specific surface area, pore channel tunability, easy functionalization and structural diversity. The careful selection of specific monomers with polyfunctionality and highly efficient polymerization provides powerful tools for creating novel porous organic materials, and it has become a research topic in this field. Herein the latest progress in the efficient construction of novel porous organic materials is reviewed taking C3 symmetrical phloroglucinol and its derivatives as examples.