Imaging the Iodine Sorption ‐Induced Synchronous Skeleton–Pore Interactions of Single Covalent Organic Framework Particles

Operando dark-field optical microscopy reveals an unexpected synchronous skeleton –pore interaction of single 2D covalent organic framework particles during the sorption of I2 vapor, accompanying a distinct color change from yellow to red and an obvious structural contraction. The reaction mechanism is attributed to the multi-directional halogen-bonding networks and cation- π interactions between oxidized and unoxidized skeletons. AbstractCovalent organic frameworks (COFs) are promising iodine adsorbents. For improved performances, it is critical and essential to fundamentally understand the underlying mechanism. Here, using the operando dark-field optical microscopy (DFM) imaging technique, the observation of an extraordinary structure shrinkage of 2D triphenylbenzene (TPB)-dimethoxyterephthaldehyde (DMTP)-COF upon the adsorption of I2 vapor at the single-particle resolution is reported. Combining single-particle DFM imaging with other experimental and theoretical methods, it is revealed that the shrinkage mechanism of the TPB-DMTP-COF is attributed to the I2 sorption-induced synchronous skeleton-pore interactions. The redox reaction of I2 and TPB-DMTP-COF yields some cationic skeletons and I3− species, which triggers the multi-directional halogen-bonding interactions of I2 and I3− as well as strong cation- π interactions between neutral and cationic skeletons, accompanying the synchronous in-plane skeleton shrinking in thexy plane and compact out-of-plane layer pack...
Source: Small - Category: Nanotechnology Authors: Tags: Research Article Source Type: research