2D Materials by Francesca Iacopi, John J. Boeckl and Chennupati Jagadish

By Francesca Iacopi, John J. Boeckl and Chennupati Jagadish (Eds.)

2D Materials comprises the newest info at the present frontier of nanotechnology, the thinnest type of fabrics to ever happen in nature. a bit over 10 years in the past, this used to be a very unknown zone, now not proposal to exist. even though, due to the fact then, graphene has been remoted and acclaimed, and an entire different category of atomically skinny fabrics, ruled by way of floor results and exhibiting thoroughly unforeseen and awesome houses has been created.

This e-book is perfect for a number of readers, together with these looking a high-level evaluate or a really specific and important research. No nanotechnologist can at present put out of your mind this new classification of materials.

  • Presents one of many first distinct books in this topic of nanotechnology
  • Contains contributions from an outstanding line-up of authoritative members that compile conception and experiments
  • Ideal for quite a few readers, together with these looking a high-level assessment or a really specific and demanding analysis

Show description

Read or Download 2D Materials PDF

Similar microelectronics books

Analysis And Design Of Quadrature Oscillators

The subsequent beneficial properties of research and layout of Quadrature Oscillators make it varied from the prevailing literature on digital oscillators: specialize in quadrature oscillators with exact quadrature and occasional phase-noise, required via smooth conversation platforms; a close comparative research of quadrature LC and RC oscillators, together with cross-coupled LC quasi-sinusoidal oscillators, cross-coupled RC leisure oscillators, a quadrature RC oscillator-mixer, and two-integrator oscillators; an intensive research of the impression of mismatches at the phase-error and the phase-noise; the realization that quadrature RC oscillators could be a sensible substitute to LC oscillators whilst sector and value can be minimized (in cross-coupled RC oscillators either the quadrature-error and phase-noise are lowered, while in LC oscillators the coupling raises the phase-noise); use of a dependent layout procedure, during which a know-how self sufficient learn, with perfect blocks, is played at first, after which the circuit point layout is addressed; and inclusion of many experimental effects, received from diversified built-in circuit prototypes, within the GHz diversity.

Band-Ferromagnetism: Ground-State and Finite-Temperature Phenomena

Written through prime specialists within the box of band-ferromagnetism, this booklet is meant to offer a standing record on our knowing of this advanced and engaging challenge of reliable country physics. glossy advancements are offered and defined in an academic variety emphasizing the decisive principles and the recent subject matters of present and destiny examine on band-ferromagnetism.

Nanodevices for Photonics and Electronics

Photonics and electronics are without end converging right into a unmarried expertise via exploiting the chances created via nanostructuring of fabrics and units. it truly is anticipated that next-generation optoelectronic units will convey nice advancements when it comes to functionality, flexibility, and effort intake: the most limits of nanoelectronics could be triumph over by utilizing a photonics strategy, whereas nanophotonics turns into a mature expertise, due to miniaturization options constructed in microelectronics.

2D Materials

Second fabrics includes the newest details at the present frontier of nanotechnology, the thinnest kind of fabrics to ever ensue in nature. a bit over 10 years in the past, this used to be a very unknown sector, now not concept to exist. notwithstanding, considering the fact that then, graphene has been remoted and acclaimed, and an entire different type of atomically skinny fabrics, ruled by means of floor results and exhibiting thoroughly unforeseen and outstanding houses has been created.

Extra resources for 2D Materials

Example text

This demonstrates once more that computational methods can nowadays be truly predictive in the design of new materials. 5. THE FUTURE ROLE OF COMPUTERS Computers will play a fundamental role in heterostructure material science. There are an essentially infinite range of possible heterostructures, each of which could be interesting. But experiments can be expensive in time, money, and effort, making it impossible (or at last undesirable) to test all potentially interesting heterostructures. To fully harness the endless possibilities of heterostructure design, it will thus be necessary to employ computer-aided design processes: both to screen candidate heterostructures for desirable properties and to eliminate candidate heterostructures due to poor properties.

J. Phys. Condens. Matter 24, 073201. , 1999. Successful test of a seamless van der Waals density functional. Phys. Rev. Lett. 82 (10), 2123–2126. , 2006. Asymptotics of the dispersion interaction: analytic benchmarks for van der Waals energy functionals. Phys. Rev. Lett. 96, 073201. , 2014. How many-body effects modify the van der Waals interaction between graphene sheets. Phys. Rev. X 4, 021040. aps. 021040. , 2016. Layer response theory: energetics of layered materials from semi-analytic high-level theory.

2013. Binding and interlayer force in the near-contact region of two graphite slabs: experiment and theory. J. Chem. Phys. 139 (22), 224704. 4839615. , 2009. Crystallography Open Database—an open-access collection of crystal structures. J. Appl. Crystallogr. 42 (4), 726–729. 1107/S0021889809016690. , 2004. Accurate description of van der Waals complexes by density functional theory including empirical corrections. J. Comput. Chem. 25 (12), 1463–1473. 20078. , 2006. Semiempirical GGA-type density functional constructed with a longrange dispersion correction.

Download PDF sample

Rated 4.61 of 5 – based on 41 votes