Hydrophobicity regulation by a facial bromine substitution in MIL‐47(V) for highly selective adsorptive desulfurization

Abstract: Metal organic frameworks (MOFs) have shown promising adsorptive desulfurization (ADS) capacity yet remains great challenges to maintain excellent performance in presence of water. Guided by the density function theoretical (DFT) calculations, we select bromine modified linkers with different substitution degrees to construct MIL‐47‐xBr to regulate the porosity and hydrophobicity. The optimized MIL‐47‐Br exhibits the highest saturation dibenzothiophene (DBT) capacity of 179.2 mgS g−1 from the hydrous oil, surpa… Show more

“…The challenges of the above methods arise from the instability of these external stimuli, the manufacturing cost of the corresponding device, and the limited range of surface contact angle control. Similarly, chemical modification [20][21][22] and plasma spraying techniques 23 are employed to augment the hydrophilicity of surfaces to achieve desired surface properties. The above methods often encounter difficulties in achieving the specific contact angle requirements for a stable interface.…”

An electron beam irradiation-assisted coating method for the regulation of hydrophilicity and hydrophobicity

“…The challenges of the above methods arise from the instability of these external stimuli, the manufacturing cost of the corresponding device, and the limited range of surface contact angle control. Similarly, chemical modification [20][21][22] and plasma spraying techniques 23 are employed to augment the hydrophilicity of surfaces to achieve desired surface properties. The above methods often encounter difficulties in achieving the specific contact angle requirements for a stable interface.…”

An electron beam irradiation-assisted coating method for the regulation of hydrophilicity and hydrophobicity

Oil extraction desulfurization based on ionic liquid: Back-extractant screening, experiment and process simulation

Regulating the microenvironments and the d-band center of hierarchical NiMoS/TS-1 catalyst by ZrO2 to enhance the hydrodesulfurization performance of dibenzothiophene