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      The tunable electric and magnetic properties of 2D MXenes and their potential applications

      Author(s): 1 , 2 , 3 , 4
      Publication date (Electronic):
      Journal: Materials Advances
      Publisher: Royal Society of Chemistry (RSC)

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          Abstract

          This review paper is focused on the electrical and magnetic property based applications of MXenes such as cancer theranostics, spintronics, and shielding against electromagnetic pollution.

          Abstract

          The electrical and magnetic properties of 2D materials remain a subject of interest among researchers. After the discovery of the first 2D carbon material, the exfoliation of 2D MXenes has catalyzed their versatile applications in nanomedicine, spintronics, microwave absorption and energy storage systems. The pristine MXenes have a metallic character, but the presence of the terminal group makes it easy to tune their electrical and magnetic properties. This review paper is mainly focused on the electrical and magnetic property based applications such as cancer theranostics, spintronics, and shielding against electromagnetic pollution. This review paper will pave the way to designing the next generation of MXene based multifunctional materials with promising opportunities.

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          Electric Field Effect in Atomically Thin Carbon Films

          K. S. Novoselov, A. K. Geim, S. Morozov (2004)
          We describe monocrystalline graphitic films, which are a few atoms thick but are nonetheless stable under ambient conditions, metallic, and of remarkably high quality. The films are found to be a two-dimensional semimetal with a tiny overlap between valence and conductance bands, and they exhibit a strong ambipolar electric field effect such that electrons and holes in concentrations up to 10 13 per square centimeter and with room-temperature mobilities of ∼10,000 square centimeters per volt-second can be induced by applying gate voltage.
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            Two-dimensional nanocrystals produced by exfoliation of Ti3 AlC2.

            Michael Naguib, Murat Kurtoglu, Volker Presser (2011)
            Article 0 comments Cited 2534 times – based on 0 reviews     Review now
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              Double-slit photoelectron interference in strong-field ionization of the neon dimer

              Maksim Kunitski, Nicolas Eicke, Pia Huber (2019)
              Wave-particle duality is an inherent peculiarity of the quantum world. The double-slit experiment has been frequently used for understanding different aspects of this fundamental concept. The occurrence of interference rests on the lack of which-way information and on the absence of decoherence mechanisms, which could scramble the wave fronts. Here, we report on the observation of two-center interference in the molecular-frame photoelectron momentum distribution upon ionization of the neon dimer by a strong laser field. Postselection of ions, which are measured in coincidence with electrons, allows choosing the symmetry of the residual ion, leading to observation of both, gerade and ungerade, types of interference.
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                Author and article information

                Contributors
                Vineeta Shukla: (View ORCID Profile)
                Journal
                Journal ID (publisher-id): MAADC9
                Title: Materials Advances
                Abbreviated Title: Mater. Adv.
                Publisher: Royal Society of Chemistry (RSC)
                ISSN (Electronic): 2633-5409
                Publication date Created: December 14 2020
                Publication date (Electronic): 2020
                Volume: 1
                Issue: 9
                Pages: 3104-3121
                Affiliations
                [1 ]Department of Physics
                [2 ]Indian Institute of Technology
                [3 ]Kharagpur-721302
                [4 ]India
                Article
                DOI: 10.1039/D0MA00548G
                SO-VID: cb62ffca-6085-48dc-822e-53fcd6659d66
                Copyright © © 2020
                License:

                http://creativecommons.org/licenses/by/3.0/

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