The impact of layered double hydroxides (LDHs) within the multidisciplinary fields of materialssciences, physics, chemistry, and biology is rapidly growing, given their easiness of synthesis,flexibility in composition, tunable biocompatibility and morphology. LDHs constitute a versatileplatform for the realization of new classes of functional systems, showing unique enhanced surfaceeffects and unprecedented properties for application in very different fields, namely, surface chemistryand catalysis, storage and triggered release of functional anions, flame retardants, drug deliveryand nanomedicine, remediation, energy storage and conversion. These systems can be synthesizedas self-assembled hierarchical nanosheet thin films by means of low temperature solution-basedapproaches, which are accessible by many laboratories and have the advantages of low cost,mild conditions, and environmental friendliness. In addition, the possibility of LDHs to be exfoliatedinto 2D nanosheets has been demonstrated to further improve their performance in many applications,as well as to be an attractive route to achieve building blocks for fabricating a wide plethora of hybridfunctional architectures. LDHs are therefore a playground for exciting new research covering allof the most intriguing features of 2D materials and more. This Special Issue on “Layered DoubleHydroxides” gathers a multidisciplinary collection of original contributions and review articles fromauthors with diverse scientific backgrounds and who employ LDHs for very different applications,permitting the demonstration of their versatility. Along with LDH-focused papers, this Special Issuealso includes some research in which materials different to LDHs resulted in a convenient choice forselected purposes.
All Science Journal Classification (ASJC) codes
- General Chemical Engineering
- General Materials Science
- Condensed Matter Physics
- Inorganic Chemistry