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Literature DB >> 19099454

Quantum dot behavior in graphene nanoconstrictions.

Kathryn Todd¹, Hung-Tao Chou, Sami Amasha, David Goldhaber-Gordon.

Abstract

Graphene nanoribbons display an imperfectly understood transport gap. We measure transport through nanoribbon devices of several lengths. In long (>/=250 nm) nanoribbons we observe transport through multiple quantum dots in series, while shorter (</=60 nm) constrictions display behavior characteristic of single and double quantum dots. New measurements indicate that dot size may scale with constriction width. We propose a model where transport occurs through quantum dots that are nucleated by background disorder potential in the presence of a confinement gap.

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Year: 2009 PMID： 19099454 DOI： 10.1021/nl803291b

Source DB: PubMed Journal: Nano Lett ISSN： 1530-6984 Impact factor: 11.189

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Cited

18 in total

1. Gate-defined quantum confinement in suspended bilayer graphene.

Authors: M T Allen; J Martin; A Yacoby
Journal: Nat Commun Date: 2012-07-03 Impact factor: 14.919

2. Facile synthesis of high-quality graphene nanoribbons.

Authors: Liying Jiao; Xinran Wang; Georgi Diankov; Hailiang Wang; Hongjie Dai
Journal: Nat Nanotechnol Date: 2010-04-04 Impact factor: 39.213

3. Fabrication of quantum-dot devices in graphene.

Authors: Satoshi Moriyama; Yoshifumi Morita; Eiichiro Watanabe; Daiju Tsuya; Shinya Uji; Maki Shimizu; Koji Ishibashi
Journal: Sci Technol Adv Mater Date: 2010-12-22 Impact factor: 8.090

4. Quantized edge modes in atomic-scale point contacts in graphene.

Authors: Amogh Kinikar; T Phanindra Sai; Semonti Bhattacharyya; Adhip Agarwala; Tathagata Biswas; Sanjoy K Sarker; H R Krishnamurthy; Manish Jain; Vijay B Shenoy; Arindam Ghosh
Journal: Nat Nanotechnol Date: 2017-04-03 Impact factor: 39.213

5. Graphene nanoribbons with smooth edges behave as quantum wires.

Authors: Xinran Wang; Yijian Ouyang; Liying Jiao; Hailiang Wang; Liming Xie; Justin Wu; Jing Guo; Hongjie Dai
Journal: Nat Nanotechnol Date: 2011-08-28 Impact factor: 39.213

6. Exceptional ballistic transport in epitaxial graphene nanoribbons.

Authors: Jens Baringhaus; Ming Ruan; Frederik Edler; Antonio Tejeda; Muriel Sicot; Amina Taleb-Ibrahimi; An-Ping Li; Zhigang Jiang; Edward H Conrad; Claire Berger; Christoph Tegenkamp; Walt A de Heer
Journal: Nature Date: 2014-02-05 Impact factor: 49.962

Quantum dot behavior in graphene nanoconstrictions.

1. Gate-defined quantum confinement in suspended bilayer graphene.

2. Facile synthesis of high-quality graphene nanoribbons.

3. Fabrication of quantum-dot devices in graphene.

4. Quantized edge modes in atomic-scale point contacts in graphene.

5. Graphene nanoribbons with smooth edges behave as quantum wires.

6. Exceptional ballistic transport in epitaxial graphene nanoribbons.

7. Tuning charge and spin excitations in zigzag edge nanographene ribbons.

8. Transport through a strongly coupled graphene quantum dot in perpendicular magnetic field.

9. Probing relaxation times in graphene quantum dots.

10. Physicochemical insight into gap openings in graphene.