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Thermoacoustic chips with carbon nanotube thin yarn arraysScanning focused laser activation of carbon nanotube cathodes for field emission flat panel displays.Efficient fabrication of carbon nanotube micro tip arrays by tailoring cross-stacked carbon nanotube sheets.A display module implemented by the fast high-temperatue response of carbon nanotube thin yarns.New-type planar field emission display with superaligned carbon nanotube yarn emitter.Fabrication and processing of high-strength densely packed carbon nanotube yarns without solution processes.Controlled fabrication of high-quality carbon nanoscrolls from monolayer graphene.Fabrication of ultralong and electrically uniform single-walled carbon nanotubes on clean substrates.Vapor-condensation-assisted optical microscopy for ultralong carbon nanotubes and other nanostructures.New insight in understanding oxygen reduction and evolution in solid-state lithium-oxygen batteries using an in situ environmental scanning electron microscope.Imaging of soft material with carbon nanotube tip using near-field scanning microwave microscopy.A Direct Grain-Boundary-Activity Correlation for CO Electroreduction on Cu Nanoparticles.Enhanced optical output power of blue light-emitting diodes with quasi-aligned gold nanoparticles.Carbon-Nanotube-Confined Vertical Heterostructures with Asymmetric Contacts.Influence of Asymmetric Contact Form on Contact Resistance and Schottky Barrier, and Corresponding Applications of Diode.Multiplexed multicolor Raman imaging of live cells with isotopically modified single walled carbon nanotubesLow-energy transmission electron diffraction and imaging of large-area graphene.Carbon nanotube yarns with high tensile strength made by a twisting and shrinking method.Conformal Fe3O4 sheath on aligned carbon nanotube scaffolds as high-performance anodes for lithium ion batteries.Development of an ultra-thin film comprised of a graphene membrane and carbon nanotube vein support.Evaluating bandgap distributions of carbon nanotubes via scanning electron microscopy imaging of the Schottky barriers.Grain-boundary-dependent CO2 electroreduction activity.Protein microarrays with carbon nanotubes as multicolor Raman labels.Flexible, All-Inorganic Actuators Based on Vanadium Dioxide and Carbon Nanotube Bimorphs.Highly Sensitive, Uniform, and Reproducible Surface-Enhanced Raman Spectroscopy Substrate with Nanometer-Scale Quasi-periodic Nanostructures.Epitaxial Growth of Aligned and Continuous Carbon Nanofibers from Carbon Nanotubes.Self-Expansion Construction of Ultralight Carbon Nanotube Aerogels with a 3D and Hierarchical Cellular Structure.Transition of single-walled carbon nanotubes from metallic to semiconducting in field-effect transistors by hydrogen plasma treatment.Ice-assisted transfer of carbon nanotube arrays.SWCNT-MoS2 -SWCNT Vertical Point Heterostructures.Observation of Charge Generation and Transfer during CVD Growth of Carbon Nanotubes.Three-Dimensional Flexible Complementary Metal-Oxide-Semiconductor Logic Circuits Based On Two-Layer Stacks of Single-Walled Carbon Nanotube Networks.Fast Adaptive Thermal Camouflage Based on Flexible VO₂/Graphene/CNT Thin Films.Reversibility of Noble Metal-Catalyzed Aprotic Li-O₂ Batteries.A vapor-liquid-solid model for chemical vapor deposition growth of carbon nanotubes.Ultra-stretchable conductors based on buckled super-aligned carbon nanotube films.Study of Carbon Nanotubes as Etching Masks and Related Applications in the Surface Modification of GaAs-based Light-Emitting Diodes.Sharp-Tip Silver Nanowires Mounted on Cantilevers for High-Aspect-Ratio High-Resolution Imaging.Large area nanoscale metal meshes for use as transparent conductive layers.Cross-stacked carbon nanotube film as an additional built-in current collector and adsorption layer for high-performance lithium sulfur batteries.
P50
Q28298614-1008D49C-12B4-4437-B4F3-5A1113B2DAB6Q33487643-F174B9B9-EDE6-4724-8AEB-762469A1711CQ34203341-00A13D66-87E5-45D7-805B-BD4861230152Q34228706-A9232E8A-0A73-4BBC-B5B1-E8D574AC0476Q34228764-3F331AAC-5ED0-402E-B501-D1AA41E4E89DQ34249018-01B1FAE1-ED04-475A-95CB-53E4647295A4Q34985159-8C9E5F60-6D4C-45BE-8AC1-485C4B85DD21Q34995315-7072B203-946E-44AE-9A89-7BDD6D5D4ECBQ35172816-D410BBB7-2A3D-4B71-B5FC-AB312EF6D711Q35198377-FB0940A1-600B-421E-A022-9592728286F8Q35475817-E1BC3DC2-71FB-4BC6-8134-4472584CF8BFQ36786849-0218A3FF-6F90-4A73-A0B8-ACB92B881881Q37440311-22C6DD8F-AEC5-4332-AED4-1319D4FB45ADQ38638226-2FB5BEEF-E1F7-453B-9550-A3DCF1A678C1Q38683765-0BB2A6AA-4649-452D-BCD3-DB8D2335ECA1Q39938049-C149D21F-D4D6-4824-B9D3-434AE3981B22Q41591768-778CD4E6-4662-4F28-9FE4-32A18E37568FQ43222533-32044798-4115-4A1A-B415-2423D853DB87Q43762126-9B8D520F-5C41-4A46-A2E7-265C54863A3CQ44730155-8C605987-C47B-4729-8EFA-8719B981D61CQ45911739-F22EC7EC-BC0A-4932-A1D4-DCCAAAA8E58DQ46200066-EEF8D63F-5D2E-4BD0-A1E6-9CA49432E9FCQ46497437-C5BFB90A-DFB3-4271-AE32-EA0556CDD56BQ48128434-898A87D1-3B2E-4884-BC1B-C1500DC29A5AQ48156197-DAE77925-0B38-4D61-A5A6-06EA8C754059Q48272537-A5B487D7-395D-41DC-A357-C82B81FD5E99Q48792610-4C92A810-3919-44EB-9880-B0B8408FA049Q51001783-39E7E7B3-D4B4-4C36-B05E-808F95046CABQ51009324-9B87A759-0169-46F7-B0F8-52E938134584Q51085196-04146C15-3549-4F85-A20C-AE27DE4B0F4EQ51307300-D70F7B7A-1CDA-4B17-A33B-545F4E019BAAQ51561694-F3C0DE32-2050-48C4-8874-22843A0B66D0Q51632645-6713FF38-825F-4473-BDC0-62D8179A63ACQ51659319-0FD134D5-FB5B-406C-B1E7-0EBC1C2D23C1Q51916676-A0C9F1E9-5A8F-4EDA-A927-40DE1580B237Q53502708-D8583616-077F-41D4-B120-278BB5D0842AQ53515966-EEADBFC1-A6B9-4BCC-92B0-20E876DAE32CQ53766524-90E95498-5B4A-4E10-93DC-43AD2A6D8ED6Q53816753-191CE79A-0395-4CA8-822F-4E491655743AQ54031845-FEB297ED-E9C6-41D2-9A29-CAA9C6983767
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Kaili Jiang
@ast
Kaili Jiang
@en
Kaili Jiang
@es
Kaili Jiang
@nl
Kaili Jiang
@sl
type
label
Kaili Jiang
@ast
Kaili Jiang
@en
Kaili Jiang
@es
Kaili Jiang
@nl
Kaili Jiang
@sl
prefLabel
Kaili Jiang
@ast
Kaili Jiang
@en
Kaili Jiang
@es
Kaili Jiang
@nl
Kaili Jiang
@sl
P1053
G-8154-2018
P106
P31
P3829
P496
0000-0002-1547-5848