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2D Layered Double Hydroxides
The pioneering advancement in 2D materials and its gripping properties have brought them to the focal point of current research interests. A lot of attention is been devoted to 2D material research and layered double hydroxide (LDH) ascend to be a reliable and potential multifunctional material. The brucite‐like layered structure with high charge density and modifiable inter‐layer domain chemistry makes LDH highly appreciable for a wide array of applications. This 2D clay exhibits exceptional high surface area and absorption that contribute towards their role adsorbent and in catalysis. The diverse chemical composition, ion‐exchange perspective, and chances of intercalation of active molecules further improve its potential as a sensor. Apart from the scope of LDH as nanosheets, it also exhibits synergic effect in hybrid structures. LDH functions as nanofillers in polymer composite and augments mechanical and thermal qualities of the polymer. The tunable functional properties make LDH highly recommendable for various non‐medical applications like anion scavenger, flame retardant, electrode material, etc., and as a biocompatible choice for delivery vector, tissue engineering, anti‐microbial activity, protein purification, etc. The possibility to exfoliate thin sheets of LDH and fine‐tune the LDH chemistry has successively unlocked the restrictions in outreaching as a versatile material.
2D Layered Double Hydroxides
The pioneering advancement in 2D materials and its gripping properties have brought them to the focal point of current research interests. A lot of attention is been devoted to 2D material research and layered double hydroxide (LDH) ascend to be a reliable and potential multifunctional material. The brucite‐like layered structure with high charge density and modifiable inter‐layer domain chemistry makes LDH highly appreciable for a wide array of applications. This 2D clay exhibits exceptional high surface area and absorption that contribute towards their role adsorbent and in catalysis. The diverse chemical composition, ion‐exchange perspective, and chances of intercalation of active molecules further improve its potential as a sensor. Apart from the scope of LDH as nanosheets, it also exhibits synergic effect in hybrid structures. LDH functions as nanofillers in polymer composite and augments mechanical and thermal qualities of the polymer. The tunable functional properties make LDH highly recommendable for various non‐medical applications like anion scavenger, flame retardant, electrode material, etc., and as a biocompatible choice for delivery vector, tissue engineering, anti‐microbial activity, protein purification, etc. The possibility to exfoliate thin sheets of LDH and fine‐tune the LDH chemistry has successively unlocked the restrictions in outreaching as a versatile material.
2D Layered Double Hydroxides
Inamuddin (editor) / Boddula, Rajender (editor) / Ahamed, Mohd Imran (editor) / Asiri, Abdullah M. (editor) / Ashtami, J. (author) / Joseph, X. (author) / Akhil, V. (author) / Athira, S.S. (author) / Mohanan, P.V. (author)
2020-05-18
33 pages
Article/Chapter (Book)
Electronic Resource
English
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