Abstract
Organic polymers don’t readily form large, two-dimensional single crystals. If they did, their properties could be tuned via organic chemistry and they could join the growing family of 2-D materials being studied for use in electronics and sensing. Some covalent organic frameworks (COFs) do take on a 2-D shape, but they typically form insoluble polycrystalline powders with tiny crystalline domains—less than 50 nm. Northwestern University scientists Austin M. Evans, William R. Dichtel, and coworkers attribute the problem to poorly controlled nucleation and growth of COF crystals. To bypass those problems, they devised a two-step synthesis strategy that separates the nucleation and growth processes (Science 2018, DOI: 10.1126/science.aar7883). For the nucleation step, the team reacted a bisboronic acid compound and a triphenylene derivative. The reaction formed a colloidal suspension of COF-5 nanoparticles that remained stable because of the presence of acetonitrile in a custom-blended solvent. Then they sl...
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