[PDF] Top 20 Conductance of Graphene Nanoribbon Junctions and the Tight Binding Model

... For graphene nanoribbons, differences are observed in the step-like structure, reflecting differences in the calculated band ...of graphene nanoribbons, the conductance within a few electron volts of ... See full document

... tunnel junctions [9-11] revealed the details of TMR and GMR mechanisms in ballistic ...the conductance is very low, since mainly d-like ∆1, ∆2’, and ∆5 states give the main contribution into ...tunnel ... See full document

... strain graphene and GNR for both the physical and electrical properties have been done using few approaches such as the tight binding model and the ab initio calcu- lation ...analytical ... See full document

... on tight binding theory predict that zigzag GNRs are always metallic whereas armchairs can be either metallic or semiconducting, depending on their ...[3]. Graphene nanoribbons with controlled edge ... See full document

... In both the Laplace and rectangular barrier potential profiles, the DOS(E) and T(E) for our TBDE model are in satisfactory agreement with that calculated from TB- π model within about 1.5 eV around the ... See full document

... A tight binding approach based on the Bogoliubov de-Genes approach has been used to calculate the DC Josephson current for short junctions with respect to the superconducting coherence length with a ... See full document

... in graphene engineering have made it feasible to tailor graphene into desired shapes to form a ...in graphene en- gineering make it feasible to tailor graphene with atomic resolution into ... See full document

... Tight junction (TJ) proteins bind the epithelial and endothelial cells together and form a barrier between the intestinal lumen and blood stream [13]. They regulate pas- sage of ions, water and small molecules ... See full document

... Ionic translocations were observed in nanopores next to graphene ribbons (Fig. 3.14) for salt concentrations from a) 1 M KCl on both sides of the membrane down to b) 0.1 mM (ribbon side) / 1M (bottom side) and ... See full document

... two graphene nanoribbon resonators as excited state and metastable state to realize PIT effect, which can be explained by the common energy diagram of three-level atomic ...two nanoribbon resonators, ... See full document

... of graphene can be dynamically tuned by chemical potential via exter- nal gate voltage or chemical doping [24, 25], which makes graphene to be a promising candidate for designing tunable PIT while the ... See full document

... observed anisotropy ratios between 0.92 and 0.94 in almost square graphene sheets subjected to uni-axial loading, while similar orthotropic ratios have been iden- tified also by Scarpa et al. [13]. The GNRs ... See full document

... Ultrasonic waves are elastic waves consisting of frequen- cies greater than 20 kHz and exist in excess of Tera Hertz in graphene. Graphene utilizes ultrasonic waves in wide range of applications including ... See full document

... for graphene micron-sized ribbons, which is valid also in the presence of many electrodes (see ...of graphene ribbons (rather than on the bulk mass- less Dirac fermion band structure), and uses the Fermi ... See full document

... thermal conductance and the maximal shear forces in the junction as normal load was varied when establishing and breaking nanoscale ...continuum model of shear response and thermal conductance for ... See full document

... both graphene and graphite (see [1] and references ...undoped graphene) at vertices of the hexagonal Brillouin ...a graphene plane are located at the vertices of a hexagonal ... See full document

... NS1 ESEV PBM functionally disrupts tight junctions. The disrupted TJ staining of ZO-1 and Occludin in MDCK mono- layers infected with the ESEV virus observed in Fig. 3E sug- gests that the ESEV PBM may ... See full document

... metallic junctions [13,14] confirmed the Wiedemann-Franz law [16] – validating the proportionality of thermal and electrical conductance in metals down to the atomic ...nanoscale junctions was shown ... See full document

... 101 Hence, polarised Raman spectroscopy is an effective tool for characterising the nature of graphene nanoribbon edges, namely, distinguishing between ribbons that have predominantly ar[r] ... See full document

... the tight junction structure that is formed at the apical periphery of contacting ...This tight junction complex mediates size-selective passive diffusion of solutes to and from the outer segments of the ... See full document