Facile synthesis of NaY molecular sieve by low-temperature ultrasonic gelling method for efficient adsorption of rare-earth elements

“…). , Commonly used rare earth recovery methods include chemical precipitation, ion exchange, electrochemical, adsorption, and membrane separation. , Adsorption of rare earth elements by adsorbents utilizing their high specific surface area or functional groups has received widespread attention because of its advantages of being green, fast, simple, cheap, and recyclable. Zhang, Kegl, and Qiu have been working on the preparation of highly efficient and selective recovery of rare earth elements. However, it is usually difficult to balance the adsorption behavior and desorption performance of these new highly selective adsorbent materials.…”

Photothermal Switchable Cellulose Nanocrystals-Graphene Oxide Ionic Imprinted Aerogel for Selective Adsorption and Controlled Desorption of Dysprosium Ions

“…). , Commonly used rare earth recovery methods include chemical precipitation, ion exchange, electrochemical, adsorption, and membrane separation. , Adsorption of rare earth elements by adsorbents utilizing their high specific surface area or functional groups has received widespread attention because of its advantages of being green, fast, simple, cheap, and recyclable. Zhang, Kegl, and Qiu have been working on the preparation of highly efficient and selective recovery of rare earth elements. However, it is usually difficult to balance the adsorption behavior and desorption performance of these new highly selective adsorbent materials.…”

Photothermal Switchable Cellulose Nanocrystals-Graphene Oxide Ionic Imprinted Aerogel for Selective Adsorption and Controlled Desorption of Dysprosium Ions

Silica extracts from fly ash modified via sol-gel methods and functionalized with CMPO for potential scavenging of rare earth elements La³⁺ and Ce³⁺

Europium removal from aqueous solutions by oxidized biochar prepared from waste palm tree fronds