The results showed that the inorganic scaffold represents a new class of Nanomaterial which can work in nerve regeneration. Our findings provide an impetus for further investigation of this kind of compound as a novel therapy for neural injuries which are considered as a beneficial source for the ...
Two-dimensional (2D) inferred particles, such as graphene and its subordinates (e.g., graphene oxide), Carbon Nanotubes, Metal Carbides (MXenes), move metal dichalcogenides (TMDs) like MoS2 and WS2, and other nanomaterials like graphitic nitride … ...
is widely regarded as the ideal carbon precursor for the growth of high-quality graphene by self-assembly on a Cu (111) surface27,28 due to its six-fold rotation symmetry and dome-shaped structure, a result of the interaction of the peripheral atoms of the carbon cluster with the substrate...
In order to predict the binding interactions between the active site of the tubulin complexed with colchicine as a reference ligand, molecular docking was performed between the compound 13a, into the crystal structure of the tubulin complex with PDB ID: 1SA0 using Maestro 8.5 (Schrodingers LLC, ...
The graphene-like features in the electronic structure arise from electronic states with coexisting honeycomb and Kagome symmetries. As a result, a flat energy band appears in the middle of the Dirac cone, which itself has been relocated at the Γ-point in reciprocal space. A necessary ...
enhanced with the increasing complexity of the structures9,10,11. Although it is trivial to demonstrate regular AT at the atomic level (e.g. the square lattice of Cu(100) and the honeycomb structure of graphene), it remains challenging to construct semi-regular ATs at the supramolecular level...
Our results showed each structure improved the mechanical properties, and the combination of these structures made the properties stronger. Moreover, we revealed the physical origin of the enhancement is caused by cross-linked networks generate stretched polymers that connect graphene sheets. Our study ...
Our results can initiate new experimental researches for improving the existing carbon nanostructure productions and to develop a new, structure-selective nanolithography of fullerenes, nanotubes and other carbon structures. We present such kind of graphene patterns which generate the self-organizing ...
The structure of a physisorbed sub-monolayer of 1,2-bis(4-pyridyl)ethylene (bpe) on epitaxial graphene is investigated by Low-Energy Electron Diffraction and Scanning Tunneling Microscopy. Additionally, non-equilibrium heat-transfer between bpe and the surface is studied by Ultrafast Low-Energy ...
Structure-invariant direct methods were used for primary atom site locations, and secondary atom site locations were found from the difference Fourier map. The software used to prepare the material for publication was Mercury 2.3 (Build RC4) and ORTEP-3 [20,21]. The complete set of structural ...