Siyao Li scite author profile

Hydrocarbon separation relies on energy-intensive distillation. Membrane technology can offer an energy-efficient alternative but requires selective differentiation of crude oil molecules with rapid liquid transport. We synthesized multiblock oligomer amines, which comprised a central amine segment with two hydrophobic oligomer blocks, and used them to fabricate hydrophobic polyamide nanofilms by interfacial polymerization from self-assembled vesicles. These polyamide nanofilms provide transport of hydrophobic liquids more than 100 times faster than that of conventional hydrophilic counterparts. In the fractionation of light crude oil, manipulation of the film thickness down to ~10 nanometers achieves permeance one order of magnitude higher than that of current state-of-the-art hydrophobic membranes while retaining comparable size- and class-based separation. This high permeance can markedly reduce plant footprint, which expands the potential for using membranes made of ultrathin nanofilms in crude oil fractionation.

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Investigation of Azo-COP-2 as a Photoresponsive Low-Energy CO₂ Adsorbent and Porous Filler in Mixed Matrix Membranes for CO₂/N₂ Separation

Prasetya

Ladewig

2019

Ind. Eng. Chem. Res.

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Azo-COP-2 is a nanoporous polymer with exceptional CO2/N2 separation performance. In this study, we further investigate the application of Azo-COP-2 as a low-energy CO2 adsorbent and porous filler in mixed matrix membranes (MMMs) for CO2/N2 separation. As an adsorbent, the UV-irradiated Azo-COP-2 showed lower CO2 uptake than in the non-irradiated state and Azo-COP-2 also exhibited highly efficient CO2 photoswitching between the two states. Combined with high CO2/N2 selectivity, this makes Azo-COP-2 an excellent candidate for low-energy CO2 capture and release. Azo-COP-2 is also shown to be a beneficial filler in MMMs. For polysulfone-based MMMs, the CO2 permeability and CO2/N2 selectivity could be increased up to 160% and 66.7%, respectively. The strategy shows the great potential of Azo-COP-2 not only for a lowenergy CO2 adsorbent but also to improve the performance of conventional polymeric membranes for CO2 post-combustion capture.

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Two-dimensional confined channels with high-density hydrophilic microregions for enhanced selective water transport

Dai

Xiong

et al. 2023

Journal of Membrane Science

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Freestanding two-dimensional nanofluidic membranes modulated by zwitterionic polyelectrolyte for mono-/di-valent ions selectivity transport

Dai

Pang

et al. 2023

Journal of Membrane Science

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Siyao Li

Hydrophobic polyamide nanofilms provide rapid transport for crude oil separation

Investigation of Azo-COP-2 as a Photoresponsive Low-Energy CO₂ Adsorbent and Porous Filler in Mixed Matrix Membranes for CO₂/N₂ Separation

Two-dimensional confined channels with high-density hydrophilic microregions for enhanced selective water transport

Freestanding two-dimensional nanofluidic membranes modulated by zwitterionic polyelectrolyte for mono-/di-valent ions selectivity transport

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Siyao Li

Hydrophobic polyamide nanofilms provide rapid transport for crude oil separation

Investigation of Azo-COP-2 as a Photoresponsive Low-Energy CO2 Adsorbent and Porous Filler in Mixed Matrix Membranes for CO2/N2 Separation

Two-dimensional confined channels with high-density hydrophilic microregions for enhanced selective water transport

Freestanding two-dimensional nanofluidic membranes modulated by zwitterionic polyelectrolyte for mono-/di-valent ions selectivity transport

Contact Info

Product

Resources

About

Investigation of Azo-COP-2 as a Photoresponsive Low-Energy CO₂ Adsorbent and Porous Filler in Mixed Matrix Membranes for CO₂/N₂ Separation