about
sameAs
Conducting polymer nanostructures: template synthesis and applications in energy storageLow-voltage graphene field-effect transistors based on octadecylphosphonic acid modified solution-processed high-k dielectrics.Nonstoichiometric acid-base reaction as reliable synthetic route to highly stable CH3NH3PbI3 perovskite film.Probing the thermal decomposition behaviors of ultrathin HfO2 films by an in situ high temperature scanning tunneling microscope.Enhanced Reduction of Graphene Oxide on Recyclable Cu Foils to Fabricate Graphene Films with Superior Thermal ConductivityGrowth of Large-Scale, Large-Size, Few-Layered α-MoO3 on SiO2 and Its Photoresponse Mechanism.Centimeter-Scale CVD Growth of Highly Crystalline Single-Layer MoS2 Film with Spatial Homogeneity and the Visualization of Grain Boundaries.Silver Nanoparticle-Deposited Boron Nitride Nanosheets as Fillers for Polymeric Composites with High Thermal ConductivityZnO-nanorods/graphene heterostructure: a direct electron transfer glucose biosensor.Interface engineering for CVD graphene: current status and progress.A Simple Method for Synthesis of High-Quality Millimeter-Scale 1T' Transition-Metal Telluride and Near-Field Nanooptical Properties.Electronic Properties of MoS2-WS2 Heterostructures Synthesized with Two-Step Lateral Epitaxial Strategy.Enhanced Performance of Polymeric Bulk Heterojunction Solar Cells via Molecular Doping with TFSA.Graphene based non-volatile memory devices.Room temperature high-detectivity mid-infrared photodetectors based on black arsenic phosphorus.Ultrahigh mobility and efficient charge injection in monolayer organic thin-film transistors on boron nitride.Homo- and hetero- p-n junctions formed on graphene steps.Structural, optical and magnetic properties of Co-doped ZnO nanorods with hidden secondary phases.Learning from Natural Nacre: Constructing Layered Polymer Composites with High Thermal Conductivity.Synergistic Effects of Plasmonics and Electron Trapping in Graphene Short-Wave Infrared Photodetectors with Ultrahigh Responsivity.A Combination of Boron Nitride Nanotubes and Cellulose Nanofibers for the Preparation of a Nanocomposite with High Thermal Conductivity.Flexible Piezoelectric-Induced Pressure Sensors for Static Measurements Based on Nanowires/Graphene Heterostructures.Polymer Composite with Improved Thermal Conductivity by Constructing a Hierarchically Ordered Three-Dimensional Interconnected Network of BN.Multifunctional Quantum Dot Nanoparticles for Effective Differentiation and Long-Term Tracking of Human Mesenchymal Stem Cells In Vitro and In Vivo.Construction of 3D Skeleton for Polymer Composites Achieving a High Thermal Conductivity.Broadside Nanoantennas Made of Single Silver Nanorods.Facet-Dependent Property of Sequentially Deposited Perovskite Thin Films: Chemical Origin and Self-Annihilation.Ultrathin efficient perovskite solar cells employing a periodic structure of a composite hole conductor for elevated plasmonic light harvesting and hole collection.Highly Sensitive and Broadband Organic Photodetectors with Fast Speed Gain and Large Linear Dynamic Range at Low Forward Bias.Quantitative Analysis of Scattering Mechanisms in Highly Crystalline CVD MoS2 through a Self-Limited Growth Strategy by Interface Engineering.Ice-Templated Assembly Strategy to Construct 3D Boron Nitride Nanosheet Networks in Polymer Composites for Thermal Conductivity Improvement.Lateral Built-In Potential of Monolayer MoS2-WS2 In-Plane Heterostructures by a Shortcut Growth Strategy.Interfacial Engineering of Silicon Carbide Nanowire/Cellulose Microcrystal Paper toward High Thermal Conductivity.Novel molecular device based on electrostatic interactions in organic polymers.High-responsivity graphene-on-silicon slot waveguide photodetectors.Highly Thermally Conductive Composite Papers Prepared Based on the Thought of Bioinspired Engineering.Precise, Self-Limited Epitaxy of Ultrathin Organic Semiconductors and Heterojunctions Tailored by van der Waals Interactions.Electron Mobility Exceeding 10 cm(2) V(-1) s(-1) and Band-Like Charge Transport in Solution-Processed n-Channel Organic Thin-Film Transistors.Epitaxial Ultrathin Organic Crystals on Graphene for High-Efficiency Phototransistors.Plasmonic optical trap having very large active volume realized with nano-ring structure.
P50
Q28749735-DDDF6E68-CB4C-4360-9951-3A0FF8B51350Q33461885-5328835E-003E-471A-942D-FBE4D9EFC3DEQ33813387-4B8F5780-839B-4E6D-A9A2-FBF47A6627E7Q33853641-F9830270-069B-4ABB-AC39-974883733BE3Q36099889-0DAFB7E0-A1F8-4731-9AFB-8223CCCEC145Q36258377-D2729FBB-5B6B-4953-80B2-E9537EEF1891Q36309434-0FFA6967-32B8-4093-AA12-E11BBD3263DCQ36499846-906F959E-FA71-4FF6-A019-B262676EA2D0Q37215753-C29F9B93-26B1-493B-B93E-2115138C4224Q38241251-DA0E6AC0-BBF7-488E-9865-CB9B943BEDF7Q38638215-DB8DEBA5-E547-4C10-AE0F-8A5C50D0294DQ38963528-7FD94D2A-F144-4042-AC9B-B2D0513A0F61Q38999808-4623F4B6-8568-4CF2-A903-15325309446CQ39256145-E75CD093-71E6-4B2D-BE5E-336CCA840AA2Q40986905-EC47DE34-6D85-40EF-92DC-B15EC0263F48Q41633521-F2B2F2DC-F70E-4862-A508-006BDD0C0149Q44910344-AC66376A-A403-4B66-AF44-17EA43EB734DQ47243417-339BD842-01A7-4043-9D88-E7C6529EA87DQ47717086-9748C318-7B08-4260-B890-C27EF7577DD7Q48124610-899BD2FC-A554-4988-9F79-AAFEE4463BB6Q48284880-BDB8328E-6615-4FCC-9632-A2C21954F480Q48316465-AFB6CEE7-8D72-4A50-98F0-944DA9B8B7B3Q48342018-BF473D05-1A1E-490E-A152-3A86BFE0FBF4Q48626529-10919891-F7AB-4750-A2CB-FAD4E14277A1Q49383845-4A82A94B-DDE8-4703-9940-B9D04E8990D2Q50181753-E80D827F-3E19-462B-A549-6A9F41EBE39EQ50193311-D150F927-07E1-4854-8FFE-31936B088C50Q50437030-9C3F8540-FAC8-4709-85D9-78ADA8E34576Q50892568-B0C09BA7-3AF6-457B-88EC-DD43E73098FFQ50902733-2C987A5E-190B-467D-B793-292913BC22A5Q50922470-B525B6C2-6A1F-45D3-B877-234BA443E773Q50932358-7705216A-3AD5-4E40-A659-44B51D821868Q51120745-449DA426-4B81-4B58-A294-890198195D1BQ51272222-87DEA7D4-43EA-48E5-BAEC-DE400FB1E585Q51276034-AB8DD78A-DCD8-4849-8C9F-E4689E7AAA59Q51307516-839B5317-8C49-4CA6-834D-C52BF548A234Q51330644-6FE58A8D-FC4D-4B2A-B246-B5514329EEE4Q51342985-B419238C-BB5B-41A0-A6CC-48F480713A60Q51345010-ACB2DBFF-447F-4E53-896D-221300EB950DQ51539762-9FB6374F-28BB-43AD-8785-BA497B44D653
P50
description
ingenieur
@nl
researcher ORCID ID = 0000-0003-0509-9508
@en
name
Xu Jianbin
@ast
Xu Jianbin
@en
Xu Jianbin
@es
Xu Jianbin
@nl
type
label
Xu Jianbin
@ast
Xu Jianbin
@en
Xu Jianbin
@es
Xu Jianbin
@nl
altLabel
Jianbin Xu
@ast
Jianbin Xu
@en
Jianbin Xu
@nl
prefLabel
Xu Jianbin
@ast
Xu Jianbin
@en
Xu Jianbin
@es
Xu Jianbin
@nl
P106
P1153
55642455300
P166
P21
P31
P3835
jian-bin-xu
P496
0000-0003-0509-9508