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Literature DB >> 23202371

Tightly bound trions in monolayer MoS2.

Kin Fai Mak¹, Keliang He, Changgu Lee, Gwan Hyoung Lee, James Hone, Tony F Heinz, Jie Shan.

Abstract

Two-dimensional (2D) atomic crystals, such as graphene and transition-metal dichalcogenides, have emerged as a new class of materials with remarkable physical properties. In contrast to graphene, monolayer MoS(2) is a non-centrosymmetric material with a direct energy gap. Strong photoluminescence, a current on/off ratio exceeding 10(8) in field-effect transistors, and efficient valley and spin control by optical helicity have recently been demonstrated in this material. Here we report the spectroscopic identification in a monolayer MoS(2) field-effect transistor of tightly bound negative trions, a quasiparticle composed of two electrons and a hole. These quasiparticles, which can be optically created with valley and spin polarized holes, have no analogue in conventional semiconductors. They also possess a large binding energy (~ 20 meV), rendering them significant even at room temperature. Our results open up possibilities both for fundamental studies of many-body interactions and for optoelectronic and valleytronic applications in 2D atomic crystals.

Entities: Chemical

Year: 2012 PMID： 23202371 DOI： 10.1038/nmat3505

Source DB: PubMed Journal: Nat Mater ISSN： 1476-1122 Impact factor: 43.841

13 in total

Tightly bound trions in monolayer MoS2.

1. Bound states in optical absorption of semiconductor quantum wells containing a two-dimensional electron Gas

2. Optical properties of a two-dimensional electron gas: Evolution of spectra from excitons to Fermi-edge singularities.

3. Control of valley polarization in monolayer MoS2 by optical helicity.

4. Valley polarization in MoS2 monolayers by optical pumping.

5. Observation of negatively charged excitons X- in semiconductor quantum wells.

6. Anomalous lattice vibrations of single- and few-layer MoS2.

7. Many-body aspects of the optical spectra of bulk and low-dimensional doped semiconductors.

8. Single-layer MoS2 transistors.

9. Emerging photoluminescence in monolayer MoS2.

10. Valley-selective circular dichroism of monolayer molybdenum disulphide.

1. Electrical control of the valley Hall effect in bilayer MoS2 transistors.

2. Gate-induced superconductivity in atomically thin MoS2 crystals.

3. Emergence of electron coherence and two-color all-optical switching in MoS2 based on spatial self-phase modulation.

4. Optical generation of excitonic valley coherence in monolayer WSe2.

5. Gate-tunable carbon nanotube-MoS2 heterojunction p-n diode.

6. Light-emitting diodes by band-structure engineering in van der Waals heterostructures.

7. Correlated fluorescence blinking in two-dimensional semiconductor heterostructures.

Review 8. Two-dimensional nanomaterial based sensors for heavy metal ions.

9. Grains and grain boundaries in highly crystalline monolayer molybdenum disulphide.

10. Highly anisotropic and robust excitons in monolayer black phosphorus.