Applications of Lamellar Membranes Reconstructed from Clay Mineral-Based Nanosheets: A Review

Abstract: Owing to their abundance, ecofriendliness, and multifaceted properties, natural clay minerals are among the most trusted and widely utilized materials on earth. One of the most exciting and latest findings of these minerals is that their layers can be exfoliated into individual flakes and reassembled to produce freestanding and flexible membranes. A tremendous surge in the research related to the futuristic applications of lamellar membranes prepared by restacking exfoliated two-dimensional (2D) nanomaterials … Show more

“…75 Restacking 2D nanosheets is one of the convenient and cost-effective methods for the construction of a percolated network of nanochannels. 78,79 The net surface charge of the nanosheets constructing the nanochannels determines the type of ion migration through the nanochannels. 80 Due to the overlapping EDL inside the nanochannels, it exhibits surface chargegoverned ion transport; that is, the nanochannels facilitate the transport of counter-ions while repelling the co-ions.…”

Self-powered ionic tactile sensors

“…75 Restacking 2D nanosheets is one of the convenient and cost-effective methods for the construction of a percolated network of nanochannels. 78,79 The net surface charge of the nanosheets constructing the nanochannels determines the type of ion migration through the nanochannels. 80 Due to the overlapping EDL inside the nanochannels, it exhibits surface chargegoverned ion transport; that is, the nanochannels facilitate the transport of counter-ions while repelling the co-ions.…”

Self-powered ionic tactile sensors

“…[32][33][34] Clay minerals are classified based on their phyllosilicate groups, i.e., based on the arrangement of octahedral hydroxide and tetrahedral silicate sheets. [35][36][37] Quartz is a hard crystalline mineral composed of silica (SiO 2 ). 38 Quartz atoms are linked in a continuous framework of silicon-oxygen tetrahedra (SiO 4 ).…”

Targeted development of sustainable green catalysts for regioselective acylation of aromatic ethers with carboxylic acidsviachlorosulfonic acid coated on poly(guanidine–triazine–sulfonamide) grafted quartz–γ-Fe₂O₃

“…Clay minerals are low-cost and ecofriendly materials that present exclusive properties such as high capillarity, a degree of swelling, and exceptional thermal and chemical stability, which favor their use in a wide range of applications, including environmental remediation. , Likewise, due to their excellent adsorption potential, clay-based adsorbents have a high regeneration capacity that also increases the sustainability of the process due to the possibility of reusing the adsorbent . Vermiculite, a natural clay mineral with a layered structure with two tetrahedral silica sheets fused to an edge shared octahedral sheet of magnesium, iron, or aluminum hydroxide, has been successfully applied to the consecutive adsorption and desorption of dysprosium in batch mode, which indicates the material’s potential for the fixed bed continuous operation.…”

Renewable and Selective Vermiculite Fixed Bed for the Rare-Earth Dysprosium Recovery