The enrichment of radioactive iodine in the waste of nuclear industries threatens human
health, and thus the efficient capture of iodine has attracted a great deal of attention in recent …

The nuclear industry will continue to develop rapidly and produce energy in the foreseeable
future; however, it presents unique challenges regarding the disposal of released waste …

The effective capture and storage of volatile molecular iodine from nuclear waste is of great
significance. Covalent organic frameworks (COFs) are a class of extended crystalline porous …

The safe handling of reprocessed fuel addresses several scientific goals, especially when
considering the capture and long-term storage of volatile radionuclides that are necessary …

Iodine (I2) capture and recovery is an important process in many industrial practices.
Conventional materials for I2 capture include Ag0‐based aerogels and zeolites and C …

Developing efficient adsorbent materials for iodine scavenging is essential to mitigate the
threat of radioactive iodine causing adverse effects on human health and the environment …

Nuclear power will continue to provide energy for the foreseeable future, but it can pose
significant challenges in terms of the disposal of waste and potential release of untreated …

Effective capture of radioactive organic iodides from nuclear waste remains a significant
challenge due to the drawbacks of current adsorbents such as low uptake capacity, high …

Metal–organic frameworks (MOFs) have been largely investigated worldwide for their use in
the capture of radioactive iodine due to its potential release during nuclear accident events …

With the rapid development of the nuclear industry, the effective treatment of radioactive
iodine has currently become an urgent but challenging task. Herein, two covalent organic …