Nuclear energy is a sustainable low-carbon energy source that plays an increasingly
important role in supporting the progress of human society. However, there are safety issues …

Following the advancements and diversification in synthetic strategies for porous covalent
materials in the literature, the materials science community started to investigate the …

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 …

Modern global industrialization along with the ever-increasing growth of the population has
resulted in continuous enhancement in the discharge and accumulation of various toxic and …

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 …

Progress in chemistry over the past four decades has generated a variety of porous
materials for removing iodine—a radioactive emission accompanying nuclear fission …

To safeguard the development of nuclear energy, practical techniques for capture and
storage of radioiodine are of critical importance but remain a significant challenge. Here we …

The quest for the development of new porous materials addressing both CO2 capture from
various sources and its conversion into useful products is a very active research area and …

The effective capture and storage of radioiodine are of worldwide interest for sustainable
nuclear energy. However, the direct observation of ambiguous binding sites that …

Morphology influences the functionality of covalent organic networks and determines
potential applications. Here, we report for the first time the use of Zincke reaction to fabricate …