Highly efficient light-gated COF membrane for precise multistage molecular separation
Liyong Zhai, Shuaiqi Gao, Linlin Guo, Shuangjiang Luo, Zhiyong Li, Huiyong Wang, Suojiang Zhang, Jianji Wang

TL;DR
A light-sensitive COF membrane was developed to efficiently separate molecules in multiple stages using light control.
Contribution
A light-gated COF membrane with dynamic pore size control for multistage molecular separation is introduced.
Findings
The membrane's pore size can switch between 0.73 and 0.93 nanometers via azobenzene isomerization.
It successfully separated compounds like cannabidiol oil and metal ions in simulated ores.
The membrane remained stable over 100 cycles due to triazole bonds.
Abstract
Membrane technology is crucial for the separations in chemical and biochemical industries because of its flexibility and reliability. However, conventional multistage separation requires multiple membranes with different pore sizes, leading to low efficiency and high energy consumption. Inspired by the light-responsive behavior of stomata in natural leaves, we successfully fabricated a highly efficient light-gated covalent organic framework (COF) membrane by using click reaction to incorporate 53.5 weight % azobenzene into the nanochannels, where the pore size of this membrane could be dynamically switched between 0.73 and 0.93 nanometers because of the reversible trans-cis isomerization of azobenzene. Notably, the light-gated COF membrane enabled efficient multistage separations of cannabidiol oil (a high-value pharmaceutical), limonene, and chlorophyll in hemp oil as well as gold,…
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Taxonomy
TopicsCovalent Organic Framework Applications · Membrane Separation Technologies · Supramolecular Chemistry and Complexes
