Electrical properties and applications of carbon nanotube structures.
about
Altered cell mechanics from the inside: dispersed single wall carbon nanotubes integrate with and restructure actinTemperature gradient measurements by using thermoelectric effect in CNTs-silicone adhesive compositeFormation of Conductive DNA-Based Nanowires via Conjugation of dsDNA with Cationic Peptide.Preparation of water soluble carbon nanotubes and assessment of their biological activity in embryonic zebrafish.Biosensing with Förster Resonance Energy Transfer Coupling between Fluorophores and Nanocarbon Allotropes.Highly Selective Photothermal Therapy by a Phenoxylated-Dextran-Functionalized Smart Carbon Nanotube Platform.The nanomaterial toolkit for neuroengineering.Nanotechnology for implantable sensors: carbon nanotubes and graphene in medicine.Structural Polymer-Based Carbon Nanotube Composite Fibers: Understanding the Processing-Structure-Performance Relationship.Advanced Materials for Use in Soft Self-Healing Devices.Functionalized carbon nanomaterials as nanocarriers for loading and delivery of a poorly water-soluble anticancer drug: a comparative study.The effect of single wall carbon nanotube metallicity on genomic DNA-mediated chirality enrichment.Spectrometric and Voltammetric Analysis of Urease – Nickel Nanoelectrode as an Electrochemical Sensor.Deagglomeration of multi-walled carbon nanotubes via an organic modifier: structure and mechanism.Injectable Carbon Nanotube-Functionalized Reverse Thermal Gel Promotes Cardiomyocytes Survival and Maturation.Physicomechanical properties of spark plasma sintered carbon nanotube-containing ceramic matrix nanocomposites.Tuning electric field aligned CNT architectures via chemistry, morphology, and sonication from micro to macroscopic scale.Coaxial carbon@boron nitride nanotube arrays with enhanced thermal stability and compressive mechanical properties.Doping induced structural stability and electronic properties of GaN nanotubes.Functional carbon nanotubes for high-quality charge transfer and moisture regulation through membranes: structural and functional insightsFlexible and Stretchable Bio-Integrated Electronics Based on Carbon Nanotube and GrapheneThermal Conductivity of MWNT–Epoxy Composites by Transient ThermoreflectanceScratch behaviour of graphene alumina nanocompositesMechano-optical modulation and optical limiting by multiwall carbon nanotubesConfocal Microscopy for Process Monitoring and Wide-Area Height Determination of Vertically-Aligned Carbon Nanotube ForestsTransparente und leitfähige Veredelung von KunststoffoberflächenFirst-principles insights on the electronic and optical properties of ZnO@CNT core@shell nanostructureCHARACTERIZATION OF QUANTUM DOTS, SINGLE WALLED CARBON NANOTUBES AND NICKEL OCTADECYLPHTHALOCYANINE CONJUGATESSingle walled carbon nanotubes functionalized with nickel phthalocyanines: effects of point of substitution and nature of functionalization on the electro-oxidation of 4-chlorophenolElectrooxidation of Chlorophenols Catalyzed by Nickel Octadecylphthalocyanine Adsorbed on Single-Walled Carbon NanotubesStructure of Carbonic Layer in Ohmic Contacts: Comparison of Silicon Carbide/Carbon and Carbon/Silicide InterfacesDetermination of the DC Electrical Conductivity of Multiwalled Carbon Nanotube Films and Graphene Layers from Noncontact Time-Domain Terahertz MeasurementsSub-THz Characterisation of Monolayer GrapheneKrypton Gas for High Quality Single Wall Carbon Nanotubes Synthesis by KrF Excimer Laser AblationEnhanced Structural, Thermal, and Electrical Properties of Multiwalled Carbon Nanotubes Hybridized with Silver Nanoparticles
P2860
Q28387306-61C091B9-128C-4555-934B-408DB433A1C9Q28659839-1E348006-BE5A-47E0-8EB6-35D03056A4ECQ33837869-87532F57-57C1-45B8-A10D-E3D1B8BC8EF6Q35146609-A53FBCDA-60FB-4A8D-8FDC-83B3917B3DB9Q35866810-7B0A7BF6-2EA8-46F6-8623-72F8F49E4AE0Q35974471-8A37FE5A-29F6-45FF-A983-6A55C2688E56Q37610362-C54F7BA5-7FF7-4DE0-9A8A-6E62E0D59F7BQ38085593-3A19FFCF-70DE-4B82-8B6E-8015A3472187Q38624247-758E2683-319D-49BE-9213-1975BE9F7D23Q39147558-7AD31E25-7233-4B1B-A8C7-879E627C836FQ39567982-6168B6EF-CDAD-4A5D-80E9-D40AF410F1E3Q43597053-7C42045E-E5A7-452F-9D76-A4279963DD3EQ45821667-BCBA5A6B-FAA5-482B-BE9C-4D154267DDBEQ46671478-DF88BACB-B6CC-4DF7-A14A-C7A8EF0FCE40Q47121207-15F74966-E7E6-4D58-A857-74D406039DFAQ47765854-3F542F1A-1913-4FFC-81EE-3976CEFE91A4Q50878331-28573CE7-B44E-43A1-9BB3-8230432A223BQ51316609-2A4413CB-B058-46D3-950A-48CBF22E938FQ54982628-CAF76B6C-479D-4F29-A2D5-08DE6C8090EFQ57159838-5884E905-AA1C-4758-A150-E258927599BEQ57176844-75FE4071-2939-48C5-A0CC-4DBD89DDD621Q57436765-5FA15E69-5A6C-4354-81B3-1EFC29D7CD61Q58278107-4496449B-E39B-4EEC-82FF-A2D58199C025Q58329944-B109228D-3F8E-45EF-BCA3-53C3D2DD26A7Q58371790-E307BBF0-3F2A-45A3-B1A1-0340832F6810Q58371804-A69156D5-CEE2-4100-9969-0C3B23DBF201Q58602991-4A06B2A9-21EF-489D-814A-E4F45B292B0BQ58839305-1B1DEDBE-A136-4817-9E2E-7B3CCA77CC0AQ58839479-F279DC07-2F93-47FB-88D5-0B92ABECBD24Q58839616-87557B62-CD59-4C3F-B82C-FBBD810E04B3Q58995818-C91B69D1-EEAB-49EC-9940-978E41BB0113Q59044193-124B3D73-9506-4FD8-B846-F3EC65EC30ACQ59062328-B91CEF39-DC6E-4796-9BE4-5C7E61E53200Q59113798-A8C20A28-95E9-480D-83ED-390371F912E1Q59128374-F07EF91D-3B69-4C5B-BC80-47673A35A713
P2860
Electrical properties and applications of carbon nanotube structures.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
Electrical properties and applications of carbon nanotube structures.
@en
type
label
Electrical properties and applications of carbon nanotube structures.
@en
prefLabel
Electrical properties and applications of carbon nanotube structures.
@en
P356
P1476
Electrical properties and applications of carbon nanotube structures.
@en
P2093
Prabhakar R Bandaru
P304
P356
10.1166/JNN.2007.307
P407
P577
2007-04-01T00:00:00Z