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 …

The immobilization of radioiodine produced from reprocessing used nuclear fuel is a
growing priority for research and development of nuclear waste forms. This review provides …

Aqueous rechargeable zinc–iodine batteries have received increasing attention in the field
of portable electronics due to their high safety, low‐cost, and great electrochemical …

Recently, 3D graphene‐based macrostructures (3D GBMs) have gained increased attention
due to their immense application potential in water treatment. The unique structural features …

Nuclear energy production is growing rapidly worldwide to satisfy increasing energy
demands. Reprocessing of used nuclear fuel (UNF) is expected to play an important role for …

Nowadays, the demand for nuclear power is continue increasing due to its safety,
cleanliness, and high economic benefits. Radioactive iodine from nuclear accidents and …

As energy demand increases, nuclear power plants will continue to be reliable sources of
energy though they release toxic byproducts to the environment. Separation of such …

The effective capture and storage of radioactive iodine is of importance for nuclear waste
storage during nuclear power station accidents. Here we report Fe 3 O 4@ PPy powder …

Effective capture of radioactive iodine in spent fuel reprocessing is an urgent problem to be
solved. In this study, we reported a novel fluoride modified bismuth sulfide supported NaY …

The development of low-cost and high-efficiency iodine sorbents is of great significance for
the control of nuclear pollution. In this work, we intercalate the tin sulfide cluster of [Sn2S6] 4 …