Preparation of metal sulfide mixtures in montmorillonite by solid–solid reactions

“…Cost-effectivity, good compatibility, good cationic exchange and absorbance capacity of MMT make this clay an attractive material as a dopant. 10,11 Repetitive octahedrons of alumina stuck in between two tetrahedral silica sheets denes the structure of MMT. Intercalation of MMT akes in the polymer matrix favors the advancement in the mechanical strength, thermal stability and the dielectric constant which arises from the assimilation of two materials with complementary dielectric properties.…”

Enhanced electroactive β-phase nucleation and dielectric properties of PVdF-HFP thin films influenced by montmorillonite and Ni(OH)₂ nanoparticle modified montmorillonite

“…Cost-effectivity, good compatibility, good cationic exchange and absorbance capacity of MMT make this clay an attractive material as a dopant. 10,11 Repetitive octahedrons of alumina stuck in between two tetrahedral silica sheets denes the structure of MMT. Intercalation of MMT akes in the polymer matrix favors the advancement in the mechanical strength, thermal stability and the dielectric constant which arises from the assimilation of two materials with complementary dielectric properties.…”

Enhanced electroactive β-phase nucleation and dielectric properties of PVdF-HFP thin films influenced by montmorillonite and Ni(OH)₂ nanoparticle modified montmorillonite

“…The ZnO nanoparticles had a relatively round shape with a narrow particle size distribution, i. e., their particle size ranged from 0.5 to 9.0 nm, with over 80 % of the particles falling within the range of 1.5 to 4.0 nm. Due to the limited interlayer space between aluminosilicate layers, the intercalated ZnO nanoparticles were thought to be in the form of plate‐ or disc‐shaped particles with the disc plane oriented parallel to the aluminosilicate layers [34] . Even though most of the ZnO nanoparticles are in the interlayer space, there might be a disorder in the stacking of aluminosilicate layers of the bentonite due to the inclusion of some ZnO nanoparticles between them.…”

“…Due to the limited interlayer space between aluminosilicate layers, the intercalated ZnO nanoparticles were thought to be in the form of plate-or discshaped particles with the disc plane oriented parallel to the aluminosilicate layers. [34] Even though most of the ZnO nanoparticles are in the interlayer space, there might be a disorder in the stacking of aluminosilicate layers of the bentonite due to the inclusion of some ZnO nanoparticles between them.…”

Structure and properties of ZnO‐organobentonite‐filled natural rubber composites

“…Owing to the advantages of solid-solid reactions, it is worth investigating for constructing novel low-dimensional nanohybrid materials with novel structures and properties by the solid-state intercalation of metal complexes into layered inorganic solids [9,10,13]. The solid-solid intercalation of both cationic and non-ionic species into inorganic solids, such as layered clay minerals, layered zirconium phosphate and zeolites, has been reported so far [2,9,[14][15][16][17].…”

Formation and optical properties of metal/10-hydroxybenzo[h]quinolone complexes in the interlayer spaces of magadiite by solid–solid reactions