Literature DB >> 22569367

Transforming Moiré blisters into geometric graphene nano-bubbles.

Jiong Lu1, A H Castro Neto, Kian Ping Loh.   

Abstract

Strain engineering has been proposed as an alternative method for manipulating the electronic properties of graphene. However, the bottleneck for strain engineering in graphene has been the ability to control such strain patterns at the nanoscale. Here we show that high level of control can be accomplished by chemically modifying the adherence of graphene on metal. Using scanning tunnelling microscopy, the shape evolution of graphene Moiré blisters towards geometrically well-defined graphene bubbles was studied during the controlled, sub-layer oxidation of the ruthenium substrate. Understanding the dynamics of the oxidation process and defects generation on the Ru substrate allows us to control the size, shape and the density of the bubbles and its associated pseudo-magnetism. We also show that a modification of the same procedure can be used to create antidots in graphene by catalytic reaction of the same nanobubbles.

Entities:  

Year:  2012        PMID: 22569367     DOI: 10.1038/ncomms1818

Source DB:  PubMed          Journal:  Nat Commun        ISSN: 2041-1723            Impact factor:   14.919


  17 in total

1.  Point defects on graphene on metals.

Authors:  M M Ugeda; D Fernández-Torre; I Brihuega; P Pou; A J Martínez-Galera; Rubén Pérez; J M Gómez-Rodríguez
Journal:  Phys Rev Lett       Date:  2011-09-08       Impact factor: 9.161

2.  Electric field effect in atomically thin carbon films.

Authors:  K S Novoselov; A K Geim; S V Morozov; D Jiang; Y Zhang; S V Dubonos; I V Grigorieva; A A Firsov
Journal:  Science       Date:  2004-10-22       Impact factor: 47.728

3.  Two-dimensional gas of massless Dirac fermions in graphene.

Authors:  K S Novoselov; A K Geim; S V Morozov; D Jiang; M I Katsnelson; I V Grigorieva; S V Dubonos; A A Firsov
Journal:  Nature       Date:  2005-11-10       Impact factor: 49.962

4.  Chemical origin of a graphene moiré overlayer on Ru(0001).

Authors:  B Wang; M-L Bocquet; S Marchini; S Günther; J Wintterlin
Journal:  Phys Chem Chem Phys       Date:  2008-04-16       Impact factor: 3.676

5.  Strain engineering of graphene's electronic structure.

Authors:  Vitor M Pereira; A H Castro Neto
Journal:  Phys Rev Lett       Date:  2009-07-20       Impact factor: 9.161

6.  Direct observation of a widely tunable bandgap in bilayer graphene.

Authors:  Yuanbo Zhang; Tsung-Ta Tang; Caglar Girit; Zhao Hao; Michael C Martin; Alex Zettl; Michael F Crommie; Y Ron Shen; Feng Wang
Journal:  Nature       Date:  2009-06-11       Impact factor: 49.962

7.  Bandgap opening in graphene antidot lattices: the missing half.

Authors:  Fangping Ouyang; Shenglin Peng; Zhongfan Liu; Zhirong Liu
Journal:  ACS Nano       Date:  2011-04-29       Impact factor: 15.881

8.  Oxygen-driven unzipping of graphitic materials.

Authors:  Je-Luen Li; Konstantin N Kudin; Michael J McAllister; Robert K Prud'homme; Ilhan A Aksay; Roberto Car
Journal:  Phys Rev Lett       Date:  2006-05-02       Impact factor: 9.161

9.  Graphene transistors.

Authors:  Frank Schwierz
Journal:  Nat Nanotechnol       Date:  2010-05-30       Impact factor: 39.213

10.  Graphene antidot lattices: designed defects and spin qubits.

Authors:  Thomas G Pedersen; Christian Flindt; Jesper Pedersen; Niels Asger Mortensen; Antti-Pekka Jauho; Kjeld Pedersen
Journal:  Phys Rev Lett       Date:  2008-04-03       Impact factor: 9.161
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  18 in total

1.  Strain engineering Dirac surface states in heteroepitaxial topological crystalline insulator thin films.

Authors:  Ilija Zeljkovic; Daniel Walkup; Badih A Assaf; Kane L Scipioni; R Sankar; Fangcheng Chou; Vidya Madhavan
Journal:  Nat Nanotechnol       Date:  2015-08-24       Impact factor: 39.213

2.  Mechanics of spontaneously formed nanoblisters trapped by transferred 2D crystals.

Authors:  Daniel A Sanchez; Zhaohe Dai; Peng Wang; Arturo Cantu-Chavez; Christopher J Brennan; Rui Huang; Nanshu Lu
Journal:  Proc Natl Acad Sci U S A       Date:  2018-07-13       Impact factor: 11.205

3.  A hydrothermal anvil made of graphene nanobubbles on diamond.

Authors:  Candy Haley Yi Xuan Lim; Anastassia Sorkin; Qiaoliang Bao; Ang Li; Kai Zhang; Milos Nesladek; Kian Ping Loh
Journal:  Nat Commun       Date:  2013       Impact factor: 14.919

4.  The encapsulation of the gemcitabine anticancer drug into grapheme nest: a theoretical study.

Authors:  Marwa Mlaouah; Bahoueddine Tangour; Mohammed El Khalifi; Tijani Gharbi; Fabien Picaud
Journal:  J Mol Model       Date:  2018-03-22       Impact factor: 1.810

5.  Nanoscale control of phonon excitations in graphene.

Authors:  Hyo Won Kim; Wonhee Ko; JiYeon Ku; Insu Jeon; Donggyu Kim; Hyeokshin Kwon; Youngtek Oh; Seunghwa Ryu; Young Kuk; Sung Woo Hwang; Hwansoo Suh
Journal:  Nat Commun       Date:  2015-06-25       Impact factor: 14.919

6.  Graphene on mica - intercalated water trapped for life.

Authors:  O Ochedowski; B Kleine Bussmann; M Schleberger
Journal:  Sci Rep       Date:  2014-08-18       Impact factor: 4.379

7.  Biaxial compressive strain engineering in graphene/boron nitride heterostructures.

Authors:  Wei Pan; Jianliang Xiao; Junwei Zhu; Chenxi Yu; Gang Zhang; Zhenhua Ni; K Watanabe; T Taniguchi; Yi Shi; Xinran Wang
Journal:  Sci Rep       Date:  2012-11-27       Impact factor: 4.379

8.  Observation of Landau levels on nitrogen-doped flat graphite surfaces without external magnetic fields.

Authors:  Takahiro Kondo; Donghui Guo; Taishi Shikano; Tetsuya Suzuki; Masataka Sakurai; Susumu Okada; Junji Nakamura
Journal:  Sci Rep       Date:  2015-11-09       Impact factor: 4.379

9.  Straining graphene using thin film shrinkage methods.

Authors:  Hiroki Shioya; Monica F Craciun; Saverio Russo; Michihisa Yamamoto; Seigo Tarucha
Journal:  Nano Lett       Date:  2014-02-03       Impact factor: 11.189

10.  Strain Engineering to Modify the Electrochemistry of Energy Storage Electrodes.

Authors:  Nitin Muralidharan; Rachel Carter; Landon Oakes; Adam P Cohn; Cary L Pint
Journal:  Sci Rep       Date:  2016-06-10       Impact factor: 4.379
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