Designing All Graphdiyne Materials as Graphene Derivatives: Topologically Driven Modulation of Electronic Properties

Abstract: Designing new 2D systems with tunable properties is an important subject for science and technology. Starting from graphene, we developed an algorithm to systematically generate 2D carbon crystals belonging to the family of graphdiynes (GDYs) and having different structures and sp/sp 2 carbon ratios. We analyze how structural and topological effects can tune the relative stability and the electronic behavior, to propose a rationale for the development of new systems with tailored propert… Show more

“…Spin up (solid black lines) and spin down band (dotted red lines) diagrams for both these systems were drawn and are displayed in Figure 6C,D, respectively. Our calculated band structure of intrinsic γ‐graphyne carries a band gap of ~0.5 eV along with appearance of Dirac cone at M‐point as shown in Figure 6A, which agrees well with earlier reports, 64,83‐85 thus validating our calculations and obtained results through these techniques.…”

Density functional theory and ab‐initio molecular dynamics calculations on the opto‐electronic, spintronic, and energies of pure and TiO _x doped monatomic γ‐graphyne

“…Spin up (solid black lines) and spin down band (dotted red lines) diagrams for both these systems were drawn and are displayed in Figure 6C,D, respectively. Our calculated band structure of intrinsic γ‐graphyne carries a band gap of ~0.5 eV along with appearance of Dirac cone at M‐point as shown in Figure 6A, which agrees well with earlier reports, 64,83‐85 thus validating our calculations and obtained results through these techniques.…”

Density functional theory and ab‐initio molecular dynamics calculations on the opto‐electronic, spintronic, and energies of pure and TiO _x doped monatomic γ‐graphyne

“…The sp-hybridized carbon-carbon triple bond (-CRC-) with many fascinating properties (e.g., no cis-trans isomers, linear structure, the high conjugation, etc. ), 10,11 especially its inhomogeneity of distribution of surface charges, can trigger peculiar properties that transitional carbon materials do not possess. As a result, scientists have long been laying out the synthesis of highly sp-hybridized new carbon allotropes with transformative properties.…”

2D graphdiyne: an emerging carbon material

“…Graphene [1][2][3][4][5][6][7] is a rapidly growing two-dimensional one atom thick carbon material with great potential in linear dispersion [1,2]. Presently, graphene-based electronic devices [3] are known for attractive peculiarities, like the quantum hall effect [4], tunneling effect [5], and many other transport properties as well as electronic properties [6,7], mechanical properties [8], and optical properties [9,10] owing to their carrier density and polarity, as well as high charge mobility for both electrons and holes. The electronic properties of graphene make it one of the promising materials in generating high-speed sensor devices [11][12][13].…”

Performance Enhancement and Comparison of Graphene Field Effect Transistor Devices Coated with HMDS Layer