A novel 2D porous organic framework based on the nucleophilic substitution of cyanuric chloride has been designed and synthesized successfully, which possesses an ordered structure, permanent porosity and drug release ability towards ibuprofen.
Here we present a new 3D microporous COF with a uniform pore size (0.64 nm). MCOF-1 exhibits high adsorption selectivity towards C3H8, C2H6 and C2H4 over CH4 owing to the pore size and preferential adsorption.
A novel porous aromatic framework based on tetra-(4-anilyl)-methane and cyanuric chloride has been designed and synthesized successfully, which possesses permanent porosity and high selectivity of CO2 towards CH4.
A novel 3D metal-organic framework (MOF) with 2D rhombic channels was synthesized for selective adsorption of p-xylene from xylene isomers by acting as a molecular sieve.
In this work, a series of microporous nitrogen-doped carbon catalysts are reported through a convenient preparation route, and exhibit excellent performance for oxygen reduction reaction.
An ionic porous aromatic framework (iPAF-1) that exhibits high dibenzothiophene uptake from model gasoline has been synthesized. Computational simulation reveals that the desulphurization is primarily controlled by the diffusion process.
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