A crystalline microporous hydrogen-bonded cross-linked organic framework has been
developed through covalent photo-cross-linking of molecular monomers that are assembled …

Recently, hydrogen‐bonded organic frameworks (HOFs) have emerged as a rapidly
advancing class of porous materials with significant potential for applications in the …

Covalent organic frameworks (COF) with periodic porous structures and tunable
functionalities are a new class of crystalline polymers connected via strong covalent bonds …

Abstract Adsorption‐based iodine (I2) capture has great potential for the treatment of
radioactive nuclear waste. In this study, we apply a “multivariate” synthetic strategy to …

Although numerous adsorbent materials have been reported for the capture of radioactive
iodine, there is still demand for new absorbents that are economically viable and can be …

By linking a nitrogen-rich organic cage with linear connectors, three cage-based isoreticular
covalent organic frameworks, ie, Cage-IRCOF-1, Cage-IRCOF-2, Cage-IRCOF-3, were …

The efficient capture of nuclear waste such as radionuclide iodine has received more
worldwide attention because of the effects of radiation on biological health. Adsorption is …

The effective capture and storage of volatile radionuclide iodine from the nuclear waste
stream is of great significance for environment remediation. Here we synthetize two types of …

During nuclear waste disposal process, radioactive iodine as a fission product can be
released. The widespread implementation of sustainable nuclear energy thus requires the …

Two 2-dimensional covalent organic frameworks (COFs; TJNU-203 and TJNU-204) with
high crystallinity and large specific surface area are rationally fabricated using a three …