Tea Frey scite author profile

Porous organic polymers incorporating nitrogen-rich functionalities have recently emerged as promising materials for efficient and highly selective CO2 capture and separation. Herein, we report synthesis and characterization of new two-dimensional (2D) benzene- and triazine-based azo-bridged porous organic polymers. Different synthetic approaches towards the porous azo-bridged polymers were tested, including reductive homocoupling of aromatic nitro monomers, oxidative homocoupling of aromatic amino monomers and heterocoupling of aromatic nitro monomers and a series of aromatic diamines of different lengths and rigidity. IR spectroscopy, 13C CP/MAS NMR spectroscopy, powder X-ray diffraction, elemental analysis, thermogravimetric analysis, nitrogen adsorption–desorption experiments and computational study were used to characterize structures and properties of the resulting polymers. The synthesized azo-bridged polymers are all amorphous solids of good thermal stability, exhibiting various surface areas (up to 351 m2 g−1). The obtained results indicated that the synthetic methods and building units have a pronounced effect on the porosity of the final materials. Reductive and oxidative homocoupling of aromatic nitro and amino building units, respectively, lead to 2D azo-bridged polymers of substantially higher porosity when compared to those produced by heterocoupling reactions. Periodic DFT calculations and Grand-canonical Monte Carlo (GCMC) simulations suggested that, within the used approximations, linear linkers of different lengths do not significantly affect CO2 adsorption properties of model azo-bridged polymers.

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Prediction of CO₂ adsorption properties of azo, azoxy and azodioxy-linked porous organic polymers guided by electrostatic potential

Frey

Panić

Šutalo

et al. 2023

CrystEngComm

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Tea Frey

Synthesis and Characterization of Benzene- and Triazine-Based Azo-Bridged Porous Organic Polymers

Prediction of CO₂ adsorption properties of azo, azoxy and azodioxy-linked porous organic polymers guided by electrostatic potential

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Tea Frey

Synthesis and Characterization of Benzene- and Triazine-Based Azo-Bridged Porous Organic Polymers

Prediction of CO2 adsorption properties of azo, azoxy and azodioxy-linked porous organic polymers guided by electrostatic potential

Contact Info

Product

Resources

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Prediction of CO₂ adsorption properties of azo, azoxy and azodioxy-linked porous organic polymers guided by electrostatic potential