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Highly Flexible and Conductive Printed Graphene for Wireless Wearable Communications Applications.
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- Scientific Reports, 2015, p. 18298, doi. 10.1038/srep18298
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Graphene-protected copper and silver plasmonics.
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- Scientific Reports, 2014, p. 1, doi. 10.1038/srep05517
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Hunting for Monolayer Boron Nitride: Optical and Raman Signatures.
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- Small, 2011, v. 7, n. 4, p. 465, doi. 10.1002/smll.201001628
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Fluorographene: A Two-Dimensional Counterpart of Teflon.
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- Small, 2010, v. 6, n. 24, p. 2877, doi. 10.1002/smll.201001555
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Fluorinated graphene: Fluorographene: A Two-Dimensional Counterpart of Teflon (Small 24/2010).
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- Small, 2010, v. 6, n. 24, p. 2773, doi. 10.1002/smll.201090086
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From One Electron to One Hole: Quasiparticle Counting in Graphene Quantum Dots Determined by Electrochemical and Plasma Etching.
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- Small, 2010, v. 6, n. 14, p. 1469, doi. 10.1002/smll.201000291
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Subjecting a Graphene Monolayer to Tension and Compression.
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- Small, 2009, v. 5, n. 21, p. 2397, doi. 10.1002/smll.200900802
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Random Walk to Graphene (Nobel Lecture).
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- Angewandte Chemie International Edition, 2011, v. 50, n. 31, p. 6966, doi. 10.1002/anie.201101174
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Twist-controlled resonant tunnelling in graphene/boron nitride/graphene heterostructures.
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- Nature Nanotechnology, 2014, v. 9, n. 10, p. 808, doi. 10.1038/nnano.2014.187
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The structure of suspended graphene sheets.
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- Nature, 2007, v. 446, n. 7131, p. 60, doi. 10.1038/nature05545
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Nanofabricated media with negative permeability at visible frequencies.
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- Nature, 2005, v. 438, n. 7066, p. 335, doi. 10.1038/nature04242
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Two-dimensional gas of massless Dirac fermions in graphene.
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- Nature, 2005, v. 438, n. 7065, p. 197, doi. 10.1038/nature04233
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Scalable and efficient separation of hydrogen isotopes using graphene-based electrochemical pumping.
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- Nature Communications, 2017, v. 8, n. 5, p. 15215, doi. 10.1038/ncomms15215
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Intercalant-independent transition temperature in superconducting black phosphorus.
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- Nature Communications, 2017, v. 8, n. 4, p. 15036, doi. 10.1038/ncomms15036
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Edge currents shunt the insulating bulk in gapped graphene.
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- Nature Communications, 2017, v. 8, n. 2, p. 14552, doi. 10.1038/ncomms14552
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Universal shape and pressure inside bubbles appearing in van der Waals heterostructures.
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- Nature Communications, 2016, v. 7, n. 8, p. 12587, doi. 10.1038/ncomms12587
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Van der Waals pressure and its effect on trapped interlayer molecules.
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- Nature Communications, 2016, v. 7, n. 7, p. 12168, doi. 10.1038/ncomms12168
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Macroscopic self-reorientation of interacting two-dimensional crystals.
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- Nature Communications, 2016, v. 7, n. 3, p. 10800, doi. 10.1038/ncomms10800
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Extremely large magnetoresistance in few-layer graphene/boron-nitride heterostructures.
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- Nature Communications, 2015, v. 6, n. 9, p. 8337, doi. 10.1038/ncomms9337
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Corrigendum: Atomically resolved imaging of highly ordered alternating fluorinated graphene.
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- Nature Communications, 2014, v. 5, n. 11, p. 5545, doi. 10.1038/ncomms6545
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Impermeable barrier films and protective coatings based on reduced graphene oxide.
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- Nature Communications, 2014, v. 5, n. 9, p. 4843, doi. 10.1038/ncomms5843
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Atomically resolved imaging of highly ordered alternating fluorinated graphene.
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- Nature Communications, 2014, v. 5, n. 9, p. 4902, doi. 10.1038/ncomms5902
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Resonant tunnelling and negative differential conductance in graphene transistors.
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- Nature Communications, 2013, v. 4, n. 4, p. 1794, doi. 10.1038/ncomms2817
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TRANSVERSE SPIN TRANSPORT IN GRAPHENE.
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- International Journal of Modern Physics B: Condensed Matter Physics; Statistical Physics; Applied Physics, 2009, v. 23, n. 12/13, p. 2641, doi. 10.1142/S0217979209062116
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A magnetically-induced Coulomb gap in graphene due to electron-electron interactions.
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- Communications Physics, 2023, v. 6, n. 1, p. 1, doi. 10.1038/s42005-023-01277-y
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A magnetically-induced Coulomb gap in graphene due to electron-electron interactions.
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- Communications Physics, 2023, v. 6, n. 1, p. 1, doi. 10.1038/s42005-023-01277-y
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Upconverted electroluminescence via Auger scattering of interlayer excitons in van der Waals heterostructures.
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- Nature Communications, 2019, v. 10, n. 1, p. N.PAG, doi. 10.1038/s41467-019-10323-9
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Author Correction: Planar and van der Waals heterostructures for vertical tunnelling single electron transistors.
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- Nature Communications, 2019, v. 10, n. 1, p. 1, doi. 10.1038/s41467-019-08910-x
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Planar and van der Waals heterostructures for vertical tunnelling single electron transistors.
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- Nature Communications, 2019, v. 10, n. 1, p. 1, doi. 10.1038/s41467-018-08227-1
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Resonant terahertz detection using graphene plasmons.
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- Nature Communications, 2018, v. 9, n. 1, p. 1, doi. 10.1038/s41467-018-07848-w
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Fluidity onset in graphene.
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- Nature Communications, 2018, v. 9, n. 1, p. 1, doi. 10.1038/s41467-018-07004-4
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Indirect excitons in van der Waals heterostructures at room temperature.
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- Nature Communications, 2018, v. 9, n. 1, p. 1, doi. 10.1038/s41467-018-04293-7
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Angstrom‐Scale Electrochemistry at Electrodes with Dimensions Commensurable and Smaller than Individual Reacting Species.
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- Angewandte Chemie International Edition, 2023, v. 62, n. 52, p. 1, doi. 10.1002/anie.202314537
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COERCIVITY OF SINGLE PINNING CENTER MEASURED BY HALL MICROMAGNETOMETRY.
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- International Journal of Nanoscience, 2004, v. 3, n. 1/2, p. 87, doi. 10.1142/S0219581X04001857
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METALLIC AND SEMICONDUCTOR HALL MICROPROBES FOR WIDE TEMPERATURE RANGE APPLICATIONS.
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- International Journal of Nanoscience, 2004, v. 3, n. 1/2, p. 123, doi. 10.1142/S0219581X04001894
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Zufallswege zum Graphen (Nobel-Aufsatz).
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- Angewandte Chemie, 2011, v. 123, n. 31, p. 7100, doi. 10.1002/ange.201101174
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- Article
Water friction in nanofluidic channels made from two-dimensional crystals.
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- Nature Communications, 2021, v. 12, n. 1, p. 1, doi. 10.1038/s41467-021-23325-3
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Charge-polarized interfacial superlattices in marginally twisted hexagonal boron nitride.
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- Nature Communications, 2021, v. 12, n. 1, p. 1, doi. 10.1038/s41467-020-20667-2
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Long-range ballistic transport of Brown-Zak fermions in graphene superlattices.
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- Nature Communications, 2020, v. 11, n. 1, p. 1, doi. 10.1038/s41467-020-19604-0
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Square ice in graphene nanocapillaries.
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- Nature, 2015, v. 519, n. 7544, p. 443, doi. 10.1038/nature14295
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Proton transport through one-atom-thick crystals.
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- Nature, 2014, v. 516, n. 7530, p. 227, doi. 10.1038/nature14015
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Van der Waals heterostructures.
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- Nature, 2013, v. 499, n. 7459, p. 419, doi. 10.1038/nature12385
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Cloning of Dirac fermions in graphene superlattices.
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- Nature, 2013, v. 497, n. 7451, p. 594, doi. 10.1038/nature12187
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Superconductivity in Ca-doped graphene laminates.
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- Scientific Reports, 2016, p. 23254, doi. 10.1038/srep23254
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Wien effect in interfacial water dissociation through proton-permeable graphene electrodes.
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- Nature Communications, 2022, v. 13, n. 1, p. 1, doi. 10.1038/s41467-022-33451-1
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Highly efficient and selective extraction of gold by reduced graphene oxide.
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- Nature Communications, 2022, v. 13, n. 1, p. 1, doi. 10.1038/s41467-022-32204-4
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Exponentially selective molecular sieving through angstrom pores.
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- Nature Communications, 2021, v. 12, n. 1, p. 1, doi. 10.1038/s41467-021-27347-9
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Graphene's non-equilibrium fermions reveal Doppler-shifted magnetophonon resonances accompanied by Mach supersonic and Landau velocity effects.
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- Nature Communications, 2021, v. 12, n. 1, p. 1, doi. 10.1038/s41467-021-26663-4
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Vertical field-effect transistor based on graphene-WS<sub>2</sub> heterostructures for flexible and transparent electronics.
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- Nature Nanotechnology, 2013, v. 8, n. 2, p. 100, doi. 10.1038/nnano.2012.224
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Free-standing graphene at atomic resolution.
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- Nature Nanotechnology, 2008, v. 3, n. 11, p. 676, doi. 10.1038/nnano.2008.280
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