Traditionally, obtaining 2D materials involves the stripping of layered crystals. However, the anisotropic bonding arrangement within the 3D crystals shows that they are mechanically similar to 2D crystals and can also be stripped into nanosheets.

In this study, the potential of 2D semimetallic PtSe2 as a source/drain (S/D) contact for 2D material field-effect transistors (FETs) is explored through theoretical and experimental studies.

The shuttle of polysulfides and the growth of lithium dendrites greatly limit the practical application of lithium sulfur batteries (LSB). A well-designed diaphragm combined with polysulfide catalyst and lithium regulator can achieve a win-win effect. Here, organic-inorganic hybrid materials were de

Ultra thin two-dimensional nanomaterials (U2DNM) are a unique material with a thickness close to atoms and infinite lateral dimensions. This type of nanomaterial typically has strong intra layer covalent bonds and weak interlayer van der Waals bonds.

Recently, a new type of phosphorus allotrope two-dimensional violet phosphorus (VP) has attracted widespread attention due to its excellent electronic, optical, and magnetic properties. Adjustable, large direct bandgap, high carrier mobility.

Recently, a new type of phosphorus allotrope two-dimensional violet phosphorus (VP) has attracted widespread attention due to its excellent electronic, optical, and magnetic properties. Adjustable, large direct bandgap, high carrier mobility, and large light absorption make it a potential candidate