Rui-Lei Wang scite author profile

Porous covalent organic frameworks (COFs), as an emerging material, have the characteristics of high stability, large series of components, easy synthesis, modification, and adjustable amplitude. They have the potential to become good catalysts. Bromine, as a halogen, has attracted intensive interest for the modification of photocatalysts for photocatalytic reactions. It is feasible to enhance the activity and selectivity of the material by facile functionalization of the reticular parent structure′s electron‐withdrawing groups. In addition, the conjugation effect of bromine, further delocalizing the electrons of the COF, is beneficial to the progress of many photocatalytic reactions. Reports on the modification of COFs by bromine functional groups to improve the catalytic performance have not been found so far. Here, TAPP [5,10,15,20‐tetrakis(4‐aminophenyl)porphyrin] and 2,5‐dibromo‐1,4‐benzenedialdehyde instead of terephthalaldehyde were chosen to synthesize a porphyrin‐based COF (TAPBB‐COF) by the solvothermal method. As expected, the valence band (VB) of TAPBB‐COF is thus adjusted to a more suitable position. Additionally, the CO production when using TAPBB‐COF under full‐wavelength light for 12 h was 295.2 μmol g−1, which was three times that of COF‐366, and the new material has good recycling stability and selectivity (95.6 %). Theoretical calculations indicate that the nitrogen of the porphyrin ring and the Schiff base, and the bromine in TAPBB‐COF contribute greatly to the activation of H2O and the conversion of CO2 in the photoreaction.

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Continuous detection of HCl and NH₃ gases with a high-performance fluorescent polymer sensor

Wang

et al. 2018

New J. Chem.

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A new triazine-based covalent organic polymer for efficient photodegradation of both acidic and basic dyes under visible light

Wang

et al. 2018

Dalton Trans.

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A new triazine-based covalent organic polymer (named COP-NT), which showed high catalytic activities for the degradation of acidic and basic dyes, is synthesized. Its structure characteristics were fully investigated, which featured large specific surface area, homogeneous porosity, strong visible light absorption, excellent thermal stability and semiconductor performance. The as-prepared COP-NT exhibits good chemical stability both in acidic and alkaline aqueous solutions, which could be used as an efficient photocatalyst for the degradation of methyl orange (MO), rhodamine B (RhB) and methylene blue (MB). The E values for the degradation of MO, RhB or MB are 9.40 kJ mol, 30.94 kJ mol or 17.54 kJ mol, respectively. Furthermore, COP-NT showed excellent reusability in degrading all the above dyes without obvious performance decay.

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Porous organic polymers: a progress report in China

et al. 2023

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Rui-Lei Wang

The preparation of new covalent organic framework embedded with silver nanoparticles and its applications in degradation of organic pollutants from waste water

Improved Photoreduction of CO₂ with Water by Tuning the Valence Band of Covalent Organic Frameworks

Continuous detection of HCl and NH₃ gases with a high-performance fluorescent polymer sensor

A new triazine-based covalent organic polymer for efficient photodegradation of both acidic and basic dyes under visible light

Porous organic polymers: a progress report in China

Contact Info

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Rui-Lei Wang

The preparation of new covalent organic framework embedded with silver nanoparticles and its applications in degradation of organic pollutants from waste water

Improved Photoreduction of CO2 with Water by Tuning the Valence Band of Covalent Organic Frameworks

Continuous detection of HCl and NH3 gases with a high-performance fluorescent polymer sensor

A new triazine-based covalent organic polymer for efficient photodegradation of both acidic and basic dyes under visible light

Porous organic polymers: a progress report in China

Contact Info

Product

Resources

About

Improved Photoreduction of CO₂ with Water by Tuning the Valence Band of Covalent Organic Frameworks

Continuous detection of HCl and NH₃ gases with a high-performance fluorescent polymer sensor