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Synthetic tailoring of graphene nanostructures with zigzag‐edged topologies: progress and perspectives
Experimental and theoretical investigations have revealed that the chemical and physical
properties of graphene are crucially determined by their topological structures. Therefore …
properties of graphene are crucially determined by their topological structures. Therefore …
The toxicity of graphene quantum dots
Recently, there has been a rapidly expanding interest in a new nano material, graphene
quantum dots, owing to its profound potential in various advanced applications. Despite its …
quantum dots, owing to its profound potential in various advanced applications. Despite its …
Large magnetic exchange coupling in rhombus-shaped nanographenes with zigzag periphery
Nanographenes with zigzag edges are predicted to manifest non-trivial π-magnetism
resulting from the interplay of concurrent electronic effects, such as hybridization of localized …
resulting from the interplay of concurrent electronic effects, such as hybridization of localized …
Structural evolution of graphene quantum dots during thermal decomposition of citric acid and the corresponding photoluminescence
The thermally decomposed citric acid (TDCA) possesses either excitation-dependent or
excitation-independent fluorescence as well as different quantum yields with varying …
excitation-independent fluorescence as well as different quantum yields with varying …
Circumpentacene with open‐shell singlet diradical character
Circumacenes (CAs) are a distinctive type of benzenoid polycyclic aromatic hydrocarbons
where an acene unit is completely enclosed by a layer of outer fused benzene rings. Despite …
where an acene unit is completely enclosed by a layer of outer fused benzene rings. Despite …
Triangulenes: from precursor design to on‐surface synthesis and characterization
Triangulene and its higher homologues are a class of zigzag‐edged triangular graphene
molecules (ZTGMs) with high‐spin ground states. These open‐shell molecules are …
molecules (ZTGMs) with high‐spin ground states. These open‐shell molecules are …
[ספר][B] Graphene science handbook, six-volume set
M Aliofkhazraei, N Ali, WI Milne, CS Ozkan, S Mitura… - 2016 - taylorfrancis.com
Graphene is the strongest material ever studied and can be an efficient substitute for silicon.
This six-volume handbook focuses on fabrication methods, nanostructure and atomic …
This six-volume handbook focuses on fabrication methods, nanostructure and atomic …
Improved all-carbon spintronic device design
The discovery of magnetism in carbon structures containing zigzag edges has stimulated
new directions in the development and design of spintronic devices. However, many of the …
new directions in the development and design of spintronic devices. However, many of the …
Size dependent magnetic and optical properties in diamond shaped graphene quantum dots: A DFT study
The magnetic and optical properties of diamond shaped graphene quantum dots (DSGQDs)
have been investigated by varying their sizes with the help of density functional theory …
have been investigated by varying their sizes with the help of density functional theory …
Structural stability, electronic, magnetic, and optical properties of rectangular graphene and boron nitride quantum dots: Effects of size, substitution, and electric field
Using density functional theory calculations, we have examined the structural stability,
electronic, magnetic, and optical properties of rectangular shaped quantum dots (QDs) of …
electronic, magnetic, and optical properties of rectangular shaped quantum dots (QDs) of …