Porous metal chalcogenides have emerged as promising materials for environmental
remediation and sustainable energy generation. Their tunable optical band gap (from …

Abstract 137 Cs is one of the most hazardous radionuclides in nuclear waste owing to its
toxicity. Developing an adsorbent for Cs+ with a high capacity and selectivity is a …

Novel porous cellulose/chitosan composite spheres loaded with nanoscale zero-valent iron
(nZVI/PCSs) were fabricated for the removal of Cd (II) from aqueous solution and the …

Chalcogenide aerogels (chalcogels) are amorphous structures widely known for their lack of
localized structural control. This study, however, demonstrates a precise multiscale structural …

Chalcogenide-based aerogels are emerging porous semiconducting nanomaterials that
appeal to applications in clean energy and the environment. Here, we report a novel gel …

Efficient and quick removal of radioactive Cs+ from wastewater is significant for the safe use
of nuclear energy and human health. A novel adsorbent K 1.93 Ti 0.22 Sn 3 S 6.43 (KTSS) …

Abstract 137 Cs is radioactive and highly hazardous to human health and the environment
and its efficient removal from water is still challenging. In this study, potassium antimony tin …

Although efficient removal of Cs from wastewater is of great importance because of the
nuclear energy sustainable development and public health, removing cesium is challenging …

Removing 137 Cs from nuclear wastewater with abundant coexisting ions at low
concentrations has always been meaningful and challenging. This work synthesized a novel …

Six thioarsenates and thioantimonates with different valences of As/Sb were synthesized
solvothermally by adjusting the synthetic temperature. Rb 2 AgAsS 4 (1), Cs 2 AgAsS 4 (2) …