Dandan Guan scite author profile

Following the first experimental realization of graphene, other ultrathin materials with unprecedented electronic properties have been explored, with particular attention given to the heavy group-IV elements Si, Ge and Sn. Two-dimensional buckled Si-based silicene has been recently realized by molecular beam epitaxy growth, whereas Ge-based germanene was obtained by molecular beam epitaxy and mechanical exfoliation. However, the synthesis of Sn-based stanene has proved challenging so far. Here, we report the successful fabrication of 2D stanene by molecular beam epitaxy, confirmed by atomic and electronic characterization using scanning tunnelling microscopy and angle-resolved photoemission spectroscopy, in combination with first-principles calculations. The synthesis of stanene and its derivatives will stimulate further experimental investigation of their theoretically predicted properties, such as a 2D topological insulating behaviour with a very large bandgap, and the capability to support enhanced thermoelectric performance, topological superconductivity and the near-room-temperature quantum anomalous Hall effect.

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Coexistence of the topological state and a two-dimensional electron gas on the surface of Bi2Se3

Bianchi

et al. 2010

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The surface of a topological insulator plays host to an odd number of linearly-dispersing Dirac fermions, protected against back-scattering by time-reversal symmetry. such characteristics make these materials attractive not only for studying a range of fundamental phenomena in both condensed matter and particle physics, but also for applications ranging from spintronics to quantum computation. Here, we show that the single Dirac cone comprising the topological state of the prototypical topological insulator Bi 2 se 3 can co-exist with a two-dimensional electron gas (2DEG), a cornerstone of conventional electronics. Creation of the 2DEG is tied to a surface band-bending effect, which should be general for narrow-gap topological insulators. This leads to the unique situation where a topological and a non-topological, easily tunable and potentially superconducting, metallic state are confined to the same region of space.

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Experimental Detection of a Majorana Mode in the core of a Magnetic Vortex inside a Topological Insulator-SuperconductorBi2Te3/NbSe2
Xu
¹
,
Wang
²
,
Liu
³

et al. 2015
Phys. Rev. Lett.
528
17
317
1
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Majorana Zero Mode Detected with Spin Selective Andreev Reflection in the Vortex of a Topological Superconductor

et al. 2016

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Majorana fermion (MF) whose antiparticle is itself has been predicted in condensed matter systems. Signatures of the MFs have been reported as zero energy modes in various systems. More definitive evidences associated with MF's novel properties are highly desired to verify the existence of the MF. Very recently, theory has predicted MFs to induce spin selective Andreev reflection (SSAR), a novel magnetic property which can be used to detect the MFs. Here we report the first observation of the SSAR from MFs inside vortices in Bi 2 Te 3 /NbSe 2 hetero-structure, in which topological superconductivity was previously established. By using spin-polarized scanning tunneling

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Dandan Guan

Epitaxial growth of two-dimensional stanene

Coexistence of the topological state and a two-dimensional electron gas on the surface of Bi2Se3

Experimental Detection of a Majorana Mode in the core of a Magnetic Vortex inside a Topological Insulator-SuperconductorBi2Te3/NbSe2
Xu
¹
,
Wang
²
,
Liu
³

et al. 2015
Phys. Rev. Lett.
528
17
317
1
View full text Add to dashboard Cite

Majorana Zero Mode Detected with Spin Selective Andreev Reflection in the Vortex of a Topological Superconductor

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Dandan Guan

Epitaxial growth of two-dimensional stanene

Coexistence of the topological state and a two-dimensional electron gas on the surface of Bi2Se3

Experimental Detection of a Majorana Mode in the core of a Magnetic Vortex inside a Topological Insulator-SuperconductorBi2Te3/NbSe2Xu1, Wang2, Liu3 et al. 2015Phys. Rev. Lett.528173171View full textAdd to dashboardCite

Majorana Zero Mode Detected with Spin Selective Andreev Reflection in the Vortex of a Topological Superconductor

Contact Info

Product

Resources

About

Experimental Detection of a Majorana Mode in the core of a Magnetic Vortex inside a Topological Insulator-SuperconductorBi2Te3/NbSe2
Xu
¹
,
Wang
²
,
Liu
³

et al. 2015
Phys. Rev. Lett.
528
17
317
1
View full text Add to dashboard Cite