Intercalation of lithium and ammonia into the layered semiconductor Bi2Se3 proceeds via a hyperextended (by > 60 %) ammonia-rich intercalate, to eventually produce a layered compound with lithium amide intercalated between the bismuth selenide layers which offers scope for further chemical manipulation
Bi2Se3 possesses a two-dimensional layered rhombohedral crystal structure, where the quintuple laye...
Lithium intercalation and de-intercalation processes have been used to fabricate bulk Bi_(2)Se_(0.3)...
Layered materials consist of covalently bonded layers separated by van der Waals gaps. They have att...
We demonstrate the intercalation of multiple zero-valent atomic species into two-dimensional (2D) la...
Intercalation of exotic atoms or molecules into the layered materials remains an extensively investi...
Intercalation and exfoliation of lithium: Few-layer-thick inorganic nanosheets (BN, NbSe2, WSe2, Sb2...
The development of a technique for following in situ the reactions of solids with alkali metal/ammon...
Two-dimensional (2D) Bi2Se3 is one of the most studied nanomaterials in recent years because of its ...
The development of a technique for following in situ the reactions of solids with alkali metal/ammon...
The Electrochemical Atomic Layer Deposition (E-ALD) technique is used for the deposition of ultrathi...
Intercalation of alkali and alkaline earth metals into ZrSe3 via soft chemical routes injects electr...
The intercalation of silver atoms into the van der Waals gap of the prototypical three-dimensional t...
Bismuth Selenide (Bi2Se3) is a topological insulator with a two-dimensional layered structure that e...
Bismuth selenide is a two-dimensional topological insulator material composed of stacked quintuple l...
This thesis describes an investigation of the structural and some physical properties of a number of...
Bi2Se3 possesses a two-dimensional layered rhombohedral crystal structure, where the quintuple laye...
Lithium intercalation and de-intercalation processes have been used to fabricate bulk Bi_(2)Se_(0.3)...
Layered materials consist of covalently bonded layers separated by van der Waals gaps. They have att...
We demonstrate the intercalation of multiple zero-valent atomic species into two-dimensional (2D) la...
Intercalation of exotic atoms or molecules into the layered materials remains an extensively investi...
Intercalation and exfoliation of lithium: Few-layer-thick inorganic nanosheets (BN, NbSe2, WSe2, Sb2...
The development of a technique for following in situ the reactions of solids with alkali metal/ammon...
Two-dimensional (2D) Bi2Se3 is one of the most studied nanomaterials in recent years because of its ...
The development of a technique for following in situ the reactions of solids with alkali metal/ammon...
The Electrochemical Atomic Layer Deposition (E-ALD) technique is used for the deposition of ultrathi...
Intercalation of alkali and alkaline earth metals into ZrSe3 via soft chemical routes injects electr...
The intercalation of silver atoms into the van der Waals gap of the prototypical three-dimensional t...
Bismuth Selenide (Bi2Se3) is a topological insulator with a two-dimensional layered structure that e...
Bismuth selenide is a two-dimensional topological insulator material composed of stacked quintuple l...
This thesis describes an investigation of the structural and some physical properties of a number of...
Bi2Se3 possesses a two-dimensional layered rhombohedral crystal structure, where the quintuple laye...
Lithium intercalation and de-intercalation processes have been used to fabricate bulk Bi_(2)Se_(0.3)...
Layered materials consist of covalently bonded layers separated by van der Waals gaps. They have att...