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Hydrothermal synthesis of multi-cationic high-entropy layered double hydroxides

Amy J. Knorpp, A. Zawisza, Shangxiong Huangfu, Aurelio Borzì, Adam H. Clark, Dariusz Kata, Thomas Graule, Michael Stuer

2022RSC Advances36 citationsDOIOpen Access PDF

Abstract

High-entropy materials are compositionally complex materials which often contain five or more elements. The most commonly studied materials in this field are alloys and oxides, where their composition allows for tunable materials properties. High-entropy layered double hydroxides have been recently touted as the next focus for the field of high-entropy materials to expand into. However, most previous work on multi-cationic layered double hydroxides has focused on syntheses with 5 or less cations in the structure. To bridge this gap into high-entropy materials, this work explores the range and extent of different compositional combinations for high-entropy double layered hydroxides. Specifically, pure layered double hydroxides were synthesized with different combinations of 7 cations (Mg, Co, Cu, Zn, Ni, Al, Fe, Cr) as well as one combination of 8 cations by utilizing a hydrothermal synthesis method. Furthermore, magnetic properties of the 8-cation LDH were investigated.

Topics & Concepts

Cationic polymerizationLayered double hydroxidesHydrothermal circulationHydrothermal synthesisChemistryHydrothermal reactionMaterials scienceChemical engineeringInorganic chemistryPolymer chemistryHydroxideEngineeringLayered Double Hydroxides Synthesis and ApplicationsMagnesium Oxide Properties and ApplicationsThermal Expansion and Ionic Conductivity