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Items: 1 to 20 of 101

1.

How perfect can graphene be?

Neugebauer P, Orlita M, Faugeras C, Barra AL, Potemski M.

Phys Rev Lett. 2009 Sep 25;103(13):136403.

PMID:
19905531
2.

Approaching the dirac point in high-mobility multilayer epitaxial graphene.

Orlita M, Faugeras C, Plochocka P, Neugebauer P, Martinez G, Maude DK, Barra AL, Sprinkle M, Berger C, de Heer WA, Potemski M.

Phys Rev Lett. 2008 Dec 31;101(26):267601.

PMID:
19437673
3.

Highly Decoupled Graphene Multilayers: Turbostraticity at its Best.

Mogera U, Dhanya R, Pujar R, Narayana C, Kulkarni GU.

J Phys Chem Lett. 2015 Nov 5;6(21):4437-43. doi: 10.1021/acs.jpclett.5b02145.

PMID:
26499379
4.

Scanning tunneling spectroscopy of graphene on graphite.

Li G, Luican A, Andrei EY.

Phys Rev Lett. 2009 May 1;102(17):176804.

PMID:
19518809
5.
6.

Mapping the density of scattering centers limiting the electron mean free path in graphene.

Giannazzo F, Sonde S, Nigro RL, Rimini E, Raineri V.

Nano Lett. 2011 Nov 9;11(11):4612-8. doi: 10.1021/nl2020922.

PMID:
21981146
7.

How good can CVD-grown monolayer graphene be?

Chen B, Huang H, Ma X, Huang L, Zhang Z, Peng LM.

Nanoscale. 2014 Dec 21;6(24):15255-61. doi: 10.1039/c4nr05664g.

PMID:
25381813
8.

High-yield synthesis of few-layer graphene flakes through electrochemical expansion of graphite in propylene carbonate electrolyte.

Wang J, Manga KK, Bao Q, Loh KP.

J Am Chem Soc. 2011 Jun 15;133(23):8888-91. doi: 10.1021/ja203725d.

PMID:
21557613
9.

Approaching ballistic transport in suspended graphene.

Du X, Skachko I, Barker A, Andrei EY.

Nat Nanotechnol. 2008 Aug;3(8):491-5. doi: 10.1038/nnano.2008.199.

PMID:
18685637
10.

Magneto-Raman scattering of graphene on graphite: electronic and phonon excitations.

Faugeras C, Amado M, Kossacki P, Orlita M, Kühne M, Nicolet AA, Latyshev YI, Potemski M.

Phys Rev Lett. 2011 Jul 15;107(3):036807.

PMID:
21838392
11.

Exfoliation of non-oxidized graphene flakes for scalable conductive film.

Park KH, Kim BH, Song SH, Kwon J, Kong BS, Kang K, Jeon S.

Nano Lett. 2012 Jun 13;12(6):2871-6. doi: 10.1021/nl3004732.

PMID:
22616737
12.

Are there fundamental limitations on the sheet resistance and transmittance of thin graphene films?

De S, Coleman JN.

ACS Nano. 2010 May 25;4(5):2713-20. doi: 10.1021/nn100343f.

PMID:
20384321
13.

Control of carrier type and density in exfoliated graphene by interface engineering.

Wang R, Wang S, Zhang D, Li Z, Fang Y, Qiu X.

ACS Nano. 2011 Jan 25;5(1):408-12. doi: 10.1021/nn102236x.

PMID:
21133417
14.

Investigation of transfer characteristics of high performance graphene flakes.

Venugopal G, Krishnamoorthy K, Kim SJ.

J Nanosci Nanotechnol. 2013 May;13(5):3515-8.

PMID:
23858891
15.

Dielectric screening enhanced performance in graphene FET.

Chen F, Xia J, Ferry DK, Tao N.

Nano Lett. 2009 Jul;9(7):2571-4. doi: 10.1021/nl900725u.

PMID:
19496554
16.

Intrinsic and extrinsic performance limits of graphene devices on SiO2.

Chen JH, Jang C, Xiao S, Ishigami M, Fuhrer MS.

Nat Nanotechnol. 2008 Apr;3(4):206-9. doi: 10.1038/nnano.2008.58.

PMID:
18654504
17.

Graphene synthesis on cubic SiC/Si wafers. perspectives for mass production of graphene-based electronic devices.

Aristov VY, Urbanik G, Kummer K, Vyalikh DV, Molodtsova OV, Preobrajenski AB, Zakharov AA, Hess C, Hänke T, Büchner B, Vobornik I, Fujii J, Panaccione G, Ossipyan YA, Knupfer M.

Nano Lett. 2010 Mar 10;10(3):992-5. doi: 10.1021/nl904115h.

PMID:
20141155
18.

Carrier scattering from dynamical magnetoconductivity in quasineutral epitaxial graphene.

Orlita M, Faugeras C, Grill R, Wysmolek A, Strupinski W, Berger C, de Heer WA, Martinez G, Potemski M.

Phys Rev Lett. 2011 Nov 18;107(21):216603.

PMID:
22181904
19.

Deconstructing graphite: graphenide solutions.

Pénicaud A, Drummond C.

Acc Chem Res. 2013 Jan 15;46(1):129-37. doi: 10.1021/ar300141s.

PMID:
23316681
20.

High mobility, printable, and solution-processed graphene electronics.

Wang S, Ang PK, Wang Z, Tang AL, Thong JT, Loh KP.

Nano Lett. 2010 Jan;10(1):92-8. doi: 10.1021/nl9028736.

PMID:
20025234
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