about
Enhancing electric-field control of ferromagnetism through nanoscale engineering of high-Tc MnxGe1-x nanomesh.Nanoengineering of an Si/MnGe quantum dot superlattice for high Curie-temperature ferromagnetism.End-bonded contacts for carbon nanotube transistors with low, size-independent resistance.Electrical spin injection and transport in semiconductor nanowires: challenges, progress and perspectives.Electrical spin injection and detection in Mn5Ge3/Ge/Mn5Ge3 nanowire transistors.Enhanced conductance fluctuation by quantum confinement effect in graphene nanoribbons.Revelation of topological surface states in Bi2Se3 thin films by in situ Al passivation.Magnetization switching through giant spin-orbit torque in a magnetically doped topological insulator heterostructure.Separation of top and bottom surface conduction in Bi2Te3 thin films.Single-crystalline Ni2Ge/Ge/Ni2Ge nanowire heterostructure transistors.High-Current Gain Two-Dimensional MoS₂-Base Hot-Electron Transistors.Electric-field-controlled ferromagnetism in high-Curie-temperature Mn0.05Ge0.95 quantum dots.Superlattice of Fe(x)Ge(1-x) nanodots and nanolayers for spintronics application.Proximity induced high-temperature magnetic order in topological insulator--ferrimagnetic insulator heterostructure.Edge effect on resistance scaling rules in graphene nanostructures.Electrical detection of spin-polarized surface states conduction in (Bi(0.53)Sb(0.47))2Te3 topological insulator.Electrical probing of magnetic phase transition and domain wall motion in single-crystalline Mn₅Ge₃ nanowire.Switching of perpendicular magnetization by spin-orbit torques in the absence of external magnetic fields.Electrical detection of spin transport in Si two-dimensional electron gas systems.Ferromagnetic germanide in Ge nanowire transistors for spintronics application.Versatile Fabrication of Self-Aligned Nanoscale Hall Devices Using Nanowire Masks.Carbon nanotube/polyaniline composite nanofibers: facile synthesis and chemosensors.Electric-field control of spin-orbit torque in a magnetically doped topological insulator.Vapor-phase transport deposition, characterization, and applications of large nanographenes.Direct Mapping of Charge Distribution during Lithiation of Ge Nanowires Using Off-Axis Electron Holography.Oxide-confined formation of germanium nanowire heterostructures for high-performance transistors.High-speed logic integrated circuits with solution-processed self-assembled carbon nanotubes.Large-Area High-Performance Flexible Pressure Sensor with Carbon Nanotube Active Matrix for Electronic Skin.Physically unclonable cryptographic primitives using self-assembled carbon nanotubes.Quantum dot behavior in bilayer graphene nanoribbons.Scale-invariant quantum anomalous Hall effect in magnetic topological insulators beyond the two-dimensional limit.Enhanced Charge Carrier Mobility in Two-Dimensional High Dielectric Molybdenum OxideElectrical properties and magnetic response of cobalt germanosilicide nanowiresGate-controlled surface conduction in Na-doped Bi2Te3 topological insulator nanoplatesFree-standing and single-crystalline Fe(1-x)Mn(x)Si nanowires with room-temperature ferromagnetism and excellent magnetic responseSynthesis of nanometre-thick MoO3 sheetsDirect imaging of thermally driven domain wall motion in magnetic insulatorsFully hardware-implemented memristor convolutional neural networkElectric-field control of ferromagnetism in Mn-doped ZnO nanowiresArtificial Synapse Based on van der Waals Heterostructures with Tunable Synaptic Functions for Neuromorphic Computing
P50
Q37366416-E4C0B1C4-4291-4BAF-B1D0-328F981DE51BQ38757823-ED26C748-4608-4AB5-BD04-BE91EC2BF22BQ38957463-F1569B22-F881-400A-BD17-FEFC22AC2CC2Q39038440-210C75E7-E96C-4AB1-B17B-F1E700B930EDQ39368397-8539EAC4-F151-427E-9911-6D591E6CBFD9Q43916802-CF804E65-A8A6-46A0-AB25-D8B1E837B14FQ44172793-00668940-C3C8-404A-B3A8-03D5A30A83D5Q44408734-CE947708-ED9E-4F99-8763-C6B13883299EQ44693431-571424E9-64D7-4295-9CDD-07A39B198C13Q45200717-3424C1E2-D302-4E4B-92E5-191775833FD6Q45956797-45C0C17C-BA89-44F5-B141-AD3C79E6A1C8Q46022907-C17FC87D-72C8-41A5-9181-9825A848472AQ46038558-32BF8C74-B029-4C38-AB7C-F1166F0C157AQ46049850-650D50BB-C0F7-4728-A8DF-C4742520C8F2Q46059950-376192E2-0904-421D-92AC-2BF8A5F89D01Q46060795-F9153B13-623C-45EF-88DD-232B29B4130AQ46067253-CBC3E8A4-A6CC-49E4-9945-E3E260BF6587Q46074934-6E8E7ECF-97B8-4615-A587-BF7388F67B40Q46092889-4EC6DFD3-EA2A-4F84-A239-00F838D28E13Q46113122-40DAC21D-A9E6-4815-A3A2-479EE5F19F5EQ46164684-CDF1103B-F8DE-4131-9BAF-E538E0891398Q46174504-547C4FF9-4A94-4E63-93E8-E0111CB21F0BQ46404624-D3C5D8B0-F6CB-45B5-802C-D4AAB9897A51Q46622042-6E5AA40E-EF71-4A8E-9BD3-E745F79CB003Q46729765-EE6DEAB0-1FA5-4BA1-9F52-0241DAAAF7D8Q46836123-CCDB0AE5-F0A8-4AE6-99DA-345240A862A8Q48182707-EC186F0E-CF51-449A-9D1F-6567A84BD0EEQ50015196-C6FFAD7E-EB86-4AFF-A026-DC86B6F548AEQ51504845-86DBCF5F-CB11-4821-AEE5-84E7080C8EE9Q53090326-77E0BD42-230A-4094-B0DC-8F6B47EABF74Q53418561-DCD72771-B7B3-4A0F-A2D0-2708181F4415Q60150014-8DADEF47-63AD-4A83-9DF6-73A0996A7811Q82425636-3D2B9427-EFA6-421C-B205-D797CF50BD71Q83398526-D12E1826-CD9F-4D0A-A9E4-F94BC96D0BC8Q84126775-C5C4C065-A735-430D-9812-BFBE534545C3Q84580308-1617D8AE-C421-4CB3-B598-4EA8685391D1Q86810721-E43AF5E0-0C8F-4893-9003-1CD050E3189BQ87193199-813FB28A-E5B6-4FB7-AF70-DCEEDA3EA2CBQ87349793-036FFE53-A1F4-41F4-8FDA-58CDD4AF435CQ89692714-1F225527-878A-4B1D-A17D-08C7CD0332F6
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Jianshi Tang
@ast
Jianshi Tang
@en
Jianshi Tang
@es
Jianshi Tang
@nl
Jianshi Tang
@sl
type
label
Jianshi Tang
@ast
Jianshi Tang
@en
Jianshi Tang
@es
Jianshi Tang
@nl
Jianshi Tang
@sl
prefLabel
Jianshi Tang
@ast
Jianshi Tang
@en
Jianshi Tang
@es
Jianshi Tang
@nl
Jianshi Tang
@sl
P1053
I-5543-2014
P106
P1153
35789210900
P31
P3829
P496
0000-0001-8369-0067
P569
2000-01-01T00:00:00Z