Porous organic polymers (POPs) are of growing research interest owing to their high surface areas, stabilities, controllable chemical configurations, and tunable pore volumes. The molecular nanoarchitecture of POP provides metal or metal oxide binding sites, which is promising for the development of advanced heterogeneous catalysts. This article highlights the development of numerous kinds of POPs and key achievements to date, including their functionalization and incorporation of nanoparticles into their framework structures, characterization methods that are predominantly in use for POP-based materials, and their applications as catalysts in several reactions. Scientists today are capable of preparing POP-based materials that show good selectivity, activity, durability, and recoverability, which can help overcome many of the current environmental and industrial problems. These POP-based materials exhibit enhanced catalytic activities for diverse reactions, including coupling, hydrogenation, and acid catalysis.
Reference:
Sebati, N.W. and Ray, S.S. 2018. Advances in nanostructured metal-encapsulated porous organic-polymer composites for catalyzed organic chemical synthesis. Catalysts, vol. 8(11): https://doi.org/10.3390/catal8110492
Sebati, N. W., & Ray, S. S. (2018). Advances in nanostructured metal-encapsulated porous organic-polymer composites for catalyzed organic chemical synthesis. http://hdl.handle.net/10204/10841
Sebati, Ngwanamohuba W, and Suprakas S Ray "Advances in nanostructured metal-encapsulated porous organic-polymer composites for catalyzed organic chemical synthesis." (2018) http://hdl.handle.net/10204/10841
Sebati NW, Ray SS. Advances in nanostructured metal-encapsulated porous organic-polymer composites for catalyzed organic chemical synthesis. 2018; http://hdl.handle.net/10204/10841.
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