By Michel Houssa, Athanasios Dimoulas, Alessandro Molle
"Major advancements within the semiconductor are at the horizon by utilizing second fabrics akin to graphene and transition steel dichalcogenides for built-in circuits. This publication presents the 1st entire therapy of the sphere with an emphasis on functions in nanoelectronic units. Chapters are divided by way of the 3 significant households of such fabrics, overlaying graphene for analog and photonic functions, MoS2 (molybdenum disulfide) for good judgment purposes and novel fabrics resembling silicene, germanene, stanene and phosphorene"-- Read more...
summary: "Major advancements within the semiconductor are at the horizon by using 2nd fabrics corresponding to graphene and transition steel dichalcogenides for built-in circuits. This e-book presents the 1st finished remedy of the sphere with an emphasis on functions in nanoelectronic units. Chapters are divided through the 3 significant households of such fabrics, protecting graphene for analog and photonic purposes, MoS2 (molybdenum disulfide) for common sense functions and novel fabrics akin to silicene, germanene, stanene and phosphorene"
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Additional info for 2D materials for nanoelectronics
T = 1): E = V ± [k 2y + n2 π 2 /W 2 ]1/2 . 59) For a normal incident wave with θ = 0, we find T = 1 as expected from the Klein paradox. 10b for a potential barrier with a width of 100 nm and a height of 200 meV for three different energies of the incoming electron. Note that T(θ) = T(−θ), and for values of k2W satisfying the relation k2W = nπ, with n as an integer, the barrier becomes completely transparent since T = 1 becomes independent of the value of θ. 7 High Mobility, Minimum Conductivity and Universal Optical Conductivity Transport measurements in graphene show a remarkably high electron mobility at room temperature .
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T. Rim, M. Klima et al. Nano Lett. 9, 332, 2008. 53. T. Georgiou, L. Britnell, P. Blake, R. V. Gorbachev, A. Gholinia, A. K. Geim, C. Casiraghi and K. S. Novoselov, Appl. Phys. Lett. 99, 093103, 2011. 54. M. Ramezani Masir, D. Moldovan and F. M. Peeters, Solid State Commun. 76, 175–176, 2013. 1 Introduction................................................................................................... 2 Synthesis of Epitaxial Graphene..................................................................
2D materials for nanoelectronics by Michel Houssa, Athanasios Dimoulas, Alessandro Molle