Titanate nanosheet
http://dbpedia.org/resource/Titanate_nanosheet
Titanat (IV) -Nanoschichten (TiNs) haben eine 2D-Struktur, wobei TiO6 -Oktaeder in einem 2D-Gitter vom Lepidokrokit-Typ mit der chemischen Formel HxTi2—x/4☐x/4O4 ⦁ H2O (x~0.7; ☐, Lücke) kantengebunden sind. Titanat-Nanoblätter können als Platten mit molekularer Dicke und unendlichen planaren Abmessungen betrachtet werden.
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Titanate (IV) nanosheets (TiNSs) have a 2D structure where TiO6 octahedra are edge-linked in a lepidocrocite-type 2D lattice with chemical formula HxTi2—x/4☐x/4O4 ⦁ H2O (x~0.7; ☐, vacancy).Titanate nanosheets may be regarded as sheets with molecular thickness and infinite planar dimensions. TiNSs are typically formed via liquid-phase exfoliation of protonic titanate. In inorganic layered materials, individual layers are bound to each other by van der Waals interactions if they are neutral, and additional Coulomb interactions if they are composed of oppositely charged layers. Through liquid-phase exfoliation, these individual sheets of layered materials can be efficiently separated using an appropriate solvent, creating single-layer colloidal suspensions. Solvents must have an interaction e
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Titanat-Nanoschicht
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Titanate nanosheet
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46173686
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1086311178
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Titanat (IV) -Nanoschichten (TiNs) haben eine 2D-Struktur, wobei TiO6 -Oktaeder in einem 2D-Gitter vom Lepidokrokit-Typ mit der chemischen Formel HxTi2—x/4☐x/4O4 ⦁ H2O (x~0.7; ☐, Lücke) kantengebunden sind. Titanat-Nanoblätter können als Platten mit molekularer Dicke und unendlichen planaren Abmessungen betrachtet werden.
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Titanate (IV) nanosheets (TiNSs) have a 2D structure where TiO6 octahedra are edge-linked in a lepidocrocite-type 2D lattice with chemical formula HxTi2—x/4☐x/4O4 ⦁ H2O (x~0.7; ☐, vacancy).Titanate nanosheets may be regarded as sheets with molecular thickness and infinite planar dimensions. TiNSs are typically formed via liquid-phase exfoliation of protonic titanate. In inorganic layered materials, individual layers are bound to each other by van der Waals interactions if they are neutral, and additional Coulomb interactions if they are composed of oppositely charged layers. Through liquid-phase exfoliation, these individual sheets of layered materials can be efficiently separated using an appropriate solvent, creating single-layer colloidal suspensions. Solvents must have an interaction energy with the layers that is greater than the interaction energy between two layers. In situ X-Ray diffraction data indicates that TiNSs can be treated as macromolecules with a sufficient amount of solvent in between layers so that they behave as individual sheets.
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10555
