about
Direct observation of Josephson vortex coresStudy of radiative heat transfer in Ångström- and nanometre-sized gaps.Single-molecule junctions based on nitrile-terminated biphenyls: a promising new anchoring group.Shot noise variation within ensembles of gold atomic break junctions at room temperature.Quantum thermopower of metallic atomic-size contacts at room temperature.Current rectification in a single molecule diode: the role of electrode coupling.Single-molecule conductance of a chemically modified, π-extended tetrathiafulvalene and its charge-transfer complex with F4TCNQ.Theoretical study of carbon-based tips for scanning tunnelling microscopy.Enhancement of near-field radiative heat transfer using polar dielectric thin films.Carbon-fiber tips for scanning probe microscopes and molecular electronics experiments.A current-driven single-atom memory.Heat dissipation in atomic-scale junctions.A molecular platinum cluster junction: a single-molecule switch.Long-range charge transport in single G-quadruplex DNA molecules.Peltier cooling in molecular junctions.Bioengineering a Single-Protein Junction.Carbon tips for all-carbon single-molecule electronics.Quantized thermal transport in single-atom junctions.Enhancing Near-Field Radiative Heat Transfer with Si-based Metasurfaces.Even-odd effect in Andreev transport through a carbon nanotube quantum dot.Radiative heat transfer in the extreme near field.Scanning tunneling spectroscopy study of the proximity effect in a disordered two-dimensional metal.Full counting statistics of multiple Andreev reflections.Dynamical coulomb blockade of multiple Andreev reflections.Publisher Correction: Study of radiative heat transfer in Ångström- and nanometre-sized gaps.Electron Transport Through Homopeptides: Are They Really Good Conductors?Theoretical study of the charge transport through C60-based single-molecule junctionsCarbon tips as electrodes for single-molecule junctionsElectronic transport through single noble gas atomsRevealing the Role of Anchoring Groups in the Electrical Conduction Through Single-Molecule JunctionsElectrical Transport through Single-Molecule Junctions: From Molecular Orbitals to Conduction ChannelsTheoretical study of the conductance of ferromagnetic atomic-sized contactsInfluence of the magnetic field on the plasmonic properties of transparent Ni anti-dot arraysTunneling explains efficient electron transport via protein junctions.Theory of half-metal/superconductor heterostructuresSubharmonic shapiro steps and assisted tunneling in superconducting point contactsHamiltonian approach to the transport properties of superconducting quantum point contactsShot noise and multiple Andreev reflections in d-wave superconductorsMagnetic interference patterns and vortices in diffusive SNS junctionsCrossover from Josephson to multiple Andreev reflection currents in atomic contacts
P50
Q29391784-DF6F1496-5569-496A-A1E4-4345FB1501EFQ30360718-5B0AF26C-F68E-4F89-A29E-EA342D2F1845Q33771013-2091F712-D9B3-402E-B814-1F43CF83A78DQ35373658-64ED3D82-D9FA-4752-840F-FF57F14EFBC1Q35546386-B6EC4EFE-B4CC-4CD4-986C-77E5FA300FEAQ35680497-CC40E0CE-6FA2-45E1-B1C8-200254D5BF03Q35704868-AD054FF4-A2E4-49C9-8921-EE65F5077BD8Q35918986-34DC27AA-5FFE-4B1D-92CA-288E056E0C1EQ41368770-A5803EEB-E752-4FC4-8241-40AC30D83036Q42321941-6C11A1FE-7443-441F-8E35-C331FFA3FB3EQ44928394-4528DD8D-F46C-45D7-A515-08158532856EQ45903257-D033A16C-BE9D-4394-9BD9-9732B8E918A6Q46395220-72A49234-229A-4846-B049-7DE7C993A712Q46890357-8CA58B0D-3849-4856-B211-436029189882Q47236575-BDB60495-D541-4EF7-AC43-37AD91A0B0B0Q47693200-69ED2F55-2C41-41AE-B153-5AC10AF9C04BQ47768901-8772BBA2-32DB-4BC4-823E-33B91C6AAF38Q48226179-5057A999-800F-4892-A316-C72AD0D94CFCQ48777546-22A4C147-3C0E-43B9-B96F-5D8A7FD93C26Q50303795-632E5198-0B77-49BD-B62F-327F58532A75Q50760595-18197018-F948-42B4-AC9B-301546BD167CQ51232721-19A7DE3C-1FF0-4FC9-A8AB-78C558D1C8C0Q52956764-36C4C801-E79B-423B-8272-C0AB431E5BA9Q52980842-6ED4BEDC-C1CF-4671-9FEA-47EC42DC8A3BQ55431332-062470C8-C0D5-4CF5-A9E7-4058072A53C5Q59511301-6217792A-E9F3-4BF5-99EC-885C08CDA2B9Q59511317-9695EF6F-0B01-4B54-BDA4-55630E62F262Q59511319-791246A0-118B-4CAA-A262-BBF3950F5A5EQ59511320-A3C5AE76-14DE-4C38-BB30-42FAC00A213BQ59511323-512C62A8-C2E5-4777-9694-F8D3C0E4B323Q62154362-A57FFBF7-4EEF-48DD-AB3A-C699BDCC0BFFQ62505115-433A5C55-A038-4F42-A610-DF7D51F36A3AQ62558841-5EBF5324-08B5-4669-9058-B665289B40BAQ64971255-5B598706-84C9-4619-BE36-BC6D2901A0FCQ73254955-6BBAB0D8-C45D-47B9-8B30-067BE9245C73Q77945962-37AAA1F8-EE7A-46CC-9C02-35CCC09BFFAEQ78152998-F0867EEC-7A3C-4799-A9DE-D3470631EE16Q78671991-66D08CAB-EB13-43DE-9A0D-A15966118A32Q80588298-773D5A09-1132-41D7-B5F9-450498564CF7Q81428791-29CDA0F0-852A-489D-AED9-034068068EE9
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Juan Carlos Cuevas
@ast
Juan Carlos Cuevas
@en
Juan Carlos Cuevas
@es
Juan Carlos Cuevas
@nl
Juan Carlos Cuevas
@sl
type
label
Juan Carlos Cuevas
@ast
Juan Carlos Cuevas
@en
Juan Carlos Cuevas
@es
Juan Carlos Cuevas
@nl
Juan Carlos Cuevas
@sl
prefLabel
Juan Carlos Cuevas
@ast
Juan Carlos Cuevas
@en
Juan Carlos Cuevas
@es
Juan Carlos Cuevas
@nl
Juan Carlos Cuevas
@sl
P1053
B-7813-2012
P106
P21
P2798
P31
P3829
P496
0000-0001-7421-0682