Prediction of very large values of magnetoresistance in a graphene nanoribbon device.
about
Room-temperature giant magnetoresistance over one billion percent in a bare graphene nanoribbon deviceFabrication of MoSe2 nanoribbons via an unusual morphological phase transition.Alkali-created rich properties in grapheme nanoribbons: Chemical bondingsMultiple thermal spin transport performances of graphene nanoribbon heterojuction co-doped with Nitrogen and BoronHigh performance current and spin diode of atomic carbon chain between transversely symmetric ribbon electrodes.Excitonic properties of hydrogen saturation-edged armchair graphene nanoribbons.Fast benchtop visualization of graphene grain boundaries using adhesive properties of defects.Magnetic structure and magnetic transport properties of graphene nanoribbons with sawtooth zigzag edgesSpin-dependent Seebeck Effect, Thermal Colossal Magnetoresistance and Negative Differential Thermoelectric Resistance in Zigzag Silicene Nanoribbon Heterojunciton.Extremely large magnetoresistance in few-layer graphene/boron-nitride heterostructures.Spin seebeck effect and thermal colossal magnetoresistance in graphene nanoribbon heterojunction.The spin-dependent transport properties of zigzag α-graphyne nanoribbons and new device design.Stable platinum nanoclusters on genomic DNA-graphene oxide with a high oxygen reduction reaction activity.Atomistic switch of giant magnetoresistance and spin thermopower in graphene-like nanoribbons.Room temperature electrically tunable rectification magnetoresistance in Ge-based Schottky devices.Edge contact dependent spin transport for n-type doping zigzag-graphene with asymmetric edge hydrogenation.Excitonic properties of graphene-based materials.Modeling of graphene nanoribbon devices.Graphene: an emerging electronic material.The first decade of organic spintronics research.Boron nitride nanotubes for spintronicsSurface chemical-modification for engineering the intrinsic physical properties of inorganic two-dimensional nanomaterials.New advances in nanographene chemistry.Two-dimensional C12Mn2/C12Cr2 as a room-temperature half metal/antiferromagnetic semiconductor: a systematic study.A spin-Seebeck diode with a negative differential spin-Seebeck effect in a hydrogen-terminated zigzag silicene nanoribbon heterojunction.Molecular quantum spintronics: supramolecular spin valves based on single-molecule magnets and carbon nanotubesThermal spin filtering, thermal spin switching and negative-differential-resistance in thermal spin currents in zigzag SiC nanoribbons.Graphene: Piecing it together.Controllable synthesis of graphene and its applications.Very large magnetoresistance in graphene nanoribbons"Seamless" graphene interconnects for the prospect of all-carbon spin-polarized field-effect transistorsAtomic scale investigation of a graphene nano-ribbon based high efficiency spin valve.Absence of edge states in covalently bonded zigzag edges of graphene on Ir(111).Impact of tube curvature on the ground-state magnetism of axially confined single-walled carbon nanotubes of the zigzag-type.Spin-dependent thermoelectric effects in graphene-based spin valves.The transport properties and new device design: the case of 6,6,12-graphyne nanoribbons.Fano-resonance-driven spin-valve effect using single-molecule magnets.Spin-filtering and rectification effects in a Z-shaped boron nitride nanoribbon junction.Intrinsic electronic and transport properties of graphyne sheets and nanoribbons.Size-dependent magnetic order and giant magnetoresistance in organic titanium-benzene multidecker cluster.
P2860
Q27348859-B1A4F8A3-BA9A-4CC6-AC5E-9E48891EF9F3Q33640133-BB6FDBA1-FDCC-42AA-B05E-B8E7541A1BC7Q33687118-F47093BF-882F-437D-909E-8A640EB2B236Q33822611-251F74A2-9F5F-43C1-9E42-E9F57BBAAC31Q34072818-12E66C7D-1551-451C-B494-A38EDE283CBFQ34179325-68FB6CAC-5F3A-4D02-8198-9B8E0DA67C9FQ34715975-F9DA51E9-689D-4549-BD74-418DC999B8E8Q34760991-84288A40-C13F-49AA-BA3F-17BF6DC24C2EQ35635806-00655350-C3FE-457F-9973-78638CD62902Q36128705-21E39DF0-CBB2-4437-8829-5D9766CB0610Q36655602-F23DA0A1-CF28-4EF7-8E79-FE73823E670BQ36902819-33FA1FE4-59F4-4F62-ABEB-573181C4CF4EQ37064918-E6CD3178-5C6D-48CF-8AB2-C3AC145B905AQ37421916-A1918183-B74C-4138-A9FC-317D12A240CFQ37431067-57F33BCD-58A9-4295-98DA-1835DB8AF244Q37571977-3901A5BF-C10E-43A9-BF2F-FBAFCF6B3468Q37940885-3D99DF6D-0326-4052-A829-5CD5FF539FA3Q38033093-EFFE4B5A-745A-45EA-A1F3-38E7FD229EA1Q38038825-374071DC-7AC6-4E04-8940-36F08BEFDB6CQ38179007-0D9AAB46-DA6B-481D-A0E0-F0777BDD75A6Q38253474-31F0BC7C-D333-4A7F-B67C-3C34207D7FB5Q38269236-F608DFF6-014C-4ACA-8F53-486939D7AB1CQ38549476-CF6BD92E-9EB1-4DDF-82C7-742DB4DCCFEAQ38769939-8BE171ED-AA91-4AF5-BF7A-E15D8F6786CFQ38878387-AB5248BF-67FE-4CDC-A1D2-4CEA9057A5C9Q38987722-128F0E3A-3FED-4DC2-BC0D-2C73B76AD90CQ39160230-557E668D-2029-428C-A073-3F70CF5A7608Q39684714-092140D0-35D6-426B-BA71-0566AC8E3379Q39860595-B96722FD-BE3F-4605-8CDE-20D86F6789E4Q42430297-D4641421-2B18-4EAB-BED0-076B43AF75B3Q42649794-A5EE862C-BCAD-4616-B811-43B880FB5367Q42678477-11EC55C8-6945-4199-8F4D-7F8889233353Q43461656-4B490585-6BAC-4893-B40B-E63A0304C028Q43533642-92FF947F-0D76-45E7-AAC0-2ED755A1213DQ43641486-486CEC9E-983D-469D-A8F9-EA96D5A0FD34Q43901815-77C6D98E-3DEE-47BF-B1F1-4BD2B7C85BB1Q43975544-3A5F5114-EBAF-4D39-ABB9-6D3E9A1EC79CQ44447451-70712199-1897-47A3-9EEE-6CDE6B3F8551Q44677324-F397FD63-3046-44B7-931B-406965C9C8B8Q47194586-C00C2708-77B8-4219-ADD5-DC461AEE4AC0
P2860
Prediction of very large values of magnetoresistance in a graphene nanoribbon device.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
2008年學術文章
@zh-hant
name
Prediction of very large values of magnetoresistance in a graphene nanoribbon device.
@en
Prediction of very large values of magnetoresistance in a graphene nanoribbon device.
@nl
type
label
Prediction of very large values of magnetoresistance in a graphene nanoribbon device.
@en
Prediction of very large values of magnetoresistance in a graphene nanoribbon device.
@nl
prefLabel
Prediction of very large values of magnetoresistance in a graphene nanoribbon device.
@en
Prediction of very large values of magnetoresistance in a graphene nanoribbon device.
@nl
P356
P1476
Prediction of very large values of magnetoresistance in a graphene nanoribbon device.
@en
P2888
P304
P356
10.1038/NNANO.2008.163
P577
2008-06-15T00:00:00Z