Controlled Propulsion and Cargo Transport of Rotating Nickel Nanowires near a Patterned Solid Surface
about
Nano-Synthetic Devices in Leishmaniasis: A Bioinformatics Approach.On-chip Microfluidic Multimodal Swimmer toward 3D Navigation.Man-made rotary nanomotors: a review of recent developments.Biodegradable Hybrid Stomatocyte Nanomotors for Drug Delivery.The triathlon of magnetic actuation: rolling, propelling, swimming with a single magnetic material.Recent advances in anisotropic magnetic colloids: realization, assembly and applications.A Force to Be Reckoned With: A Review of Synthetic Microswimmers Powered by Ultrasound.Mesoscale modelling of environmentally responsive hydrogels: emerging applications.Recent Progress on Man-Made Inorganic Nanomachines.Fuel-Free Synthetic Micro-/Nanomachines.Cytotoxicity and intracellular dissolution of nickel nanowires.Self-propelled autonomous nanomotors meet microfluidics.Towards biocompatible nano/microscale machines: self-propelled catalytic nanomotors not exhibiting acute toxicity.Catalytic micromotor generating self-propelled regular motion through random fluctuationMagnetic helical micromachines.Analytical theory and stability analysis of an elongated nanoscale object under external torque.Engineering Contactless Particle-Particle Interactions in Active Microswimmers.Steering trajectories in magnetically actuated colloidal propellers.Maximizing propulsive thrust of a driven filament at low Reynolds number via variable flexibility.Motion Manipulation of Micro- and Nanomotors.Self-assembly of rigid magnetic rods consisting of single dipolar beads in two dimensions.Magnetization directions and geometries of helical microswimmers for linear velocity-frequency response.Magnetic microkayaks: propulsion of microrods precessing near a surface by kilohertz frequency, rotating magnetic fields.Minimal geometric requirements for micropropulsion via magnetic rotation.Hybrid Magnetoelectric Nanowires for Nanorobotic Applications: Fabrication, Magnetoelectric Coupling, and Magnetically Assisted In Vitro Targeted Drug Delivery.Assembly and Transport of Microscopic Cargos via Reconfigurable Photoactivated Magnetic Microdockers.Asymmetric hybrid silica nanomotors for capture and cargo transport: towards a novel motion-based DNA sensor.Magnetically tunable bidirectional locomotion of a self-assembled nanorod-sphere propeller.Self-propelled supramolecular nanomotors with temperature-responsive speed regulation.Moisture-responsive graphene paper prepared by self-controlled photoreduction.Population splitting of rodlike swimmers in Couette flow.Redox Reaction Triggered Nanomotors Based on Soft-Oxometalates With High and Sustained Motility.Actuation of Iron Oxide-Based Nanostructures by External Magnetic FieldsDumbbell Fluidic Tweezers for Dynamical Trapping and Selective Transport of MicroobjectsMagnetoelectric micromachines with wirelessly controlled navigation and functionalityMesoporous Silica Nanoparticles: Their Projection in NanomedicineVisible light-gated reconfigurable rotary actuation of electric nanomotors
P2860
Q26852294-E937C74C-A0DB-48F0-BE78-179D5A117182Q27302181-38FC7613-999A-47A9-B516-18D0B859CE0EQ30356007-6128CE49-B6F0-4938-8BC5-04F67E1E4F06Q30361124-82C9241E-2E5E-4A54-92F1-8AD073D5C577Q30630249-CC1AD01E-C457-472F-BE40-36938BEAF915Q38248424-0A235BCF-F9A9-4F06-870B-F69D0620CF39Q38410405-287945E9-17A4-42E7-BDC5-C8B7D1C0C18AQ38477132-BF80939C-7A67-4ABA-8CC7-3EA8E1E229BFQ38538479-109F7912-1084-4C93-A919-671CA60E7D8DQ38777722-53C11459-9D8E-429E-BEA5-4D3DE8E0A420Q38809892-E3239B52-A731-4C8E-9C01-E5BA0C42FF2BQ38813956-F951B073-59CD-4657-A1A3-EDE27AF759D4Q39054912-7A3F3362-BFF6-4711-92CF-00853D2ECEECQ41841694-EA65E26A-B683-4F71-ABAB-07304794236BQ44431479-E425A8F3-6A50-4854-AD63-9BA161B8CA5AQ46277189-DFD4601A-C574-4909-8FD8-A923DABB7B54Q47251017-B86F1FBF-E7D2-4FC1-AC5D-9A07A22B42BDQ47291951-258C203B-E9F4-4B1D-B024-2218A897F8C0Q47947958-E5F693D8-0A3A-461E-BC53-1FAC1EEB4E44Q48055277-6490FF66-C9B3-49F9-89CB-E4D111E6119EQ49961750-E559C319-46AE-4DBC-B4FC-E5BE27C90359Q50914421-2153F1B9-E7EB-4BE3-98A3-3A5E1B11C4F4Q50993865-4E214358-1C8E-4193-9029-A345DC1E2FBBQ51025099-1DC7AE0E-C9A9-4835-87D9-5321E59DE2DFQ51081617-54432DD8-E882-47FE-A430-6E24AF9500CEQ51442839-0E4DCC4A-7FAB-419E-AE47-0236A84CEE14Q51540524-6A6355C5-535D-4A8F-B41A-DEB5E2169ED4Q52309512-6AE053D9-8A23-4EAC-9F57-3BAAB547397FQ53342459-872FB2C0-97F9-4181-BA85-655FD772F083Q53409472-0E37C594-4653-45CA-8D51-C6154B2930A5Q53596083-0658997D-ED9A-411B-B55F-7EF91582CC8AQ55260833-9C5B32C5-E4FB-4006-9C08-043969A78090Q57341251-BDE1D719-0369-4904-810E-7FF56EB1F07FQ57741272-99915509-F232-4E8E-BB1C-132375F5A4AEQ58633543-0BAC5A87-4CFB-4B4A-A0C0-8DDA0740281BQ58691425-C880A4E1-793F-4E1A-816F-57D63B82552AQ58740455-C1192F02-BAAB-45E1-9100-00AB88053332
P2860
Controlled Propulsion and Cargo Transport of Rotating Nickel Nanowires near a Patterned Solid Surface
description
im September 2010 veröffentlichter wissenschaftlicher Artikel
@de
scientific article published on 01 October 2010
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована у вересні 2010
@uk
name
Controlled Propulsion and Carg ...... near a Patterned Solid Surface
@en
Controlled Propulsion and Carg ...... near a Patterned Solid Surface
@nl
type
label
Controlled Propulsion and Carg ...... near a Patterned Solid Surface
@en
Controlled Propulsion and Carg ...... near a Patterned Solid Surface
@nl
prefLabel
Controlled Propulsion and Carg ...... near a Patterned Solid Surface
@en
Controlled Propulsion and Carg ...... near a Patterned Solid Surface
@nl
P2093
P50
P356
P1433
P1476
Controlled propulsion and carg ...... near a patterned solid surface
@en
P2093
Bradley E Kratochvil
Kathrin E Peyer
P304
P356
10.1021/NN101861N
P407
P577
2010-10-01T00:00:00Z